I finally have an update. I have the guts of the control unit almost done. This is a shot of the face, minus the touch screen.
It's pretty standard for electronic enclosures to come prefinished with a dull gray powder coat finish. I used several small cans of automotive touch-up paint to dress it up. I honestly didn't have a design in mind when I started painting; this is just what I ended up being happy with. Because of the way it turned out, I'm now naming my home brewery the Demon Eye Brewery (for obvious reasons). The kids don't like it but what can you do.
This is inside. Along the top are three big aluminum heatsinks with 5 SSRs (solid state relays) which will drive the 5 heating elements in the system. They are 4500W + 3000W for the lauter tun/hot liquor tank, 4500W for the heat exchanger, and 4500W + 3000W elements in the kettle. There are two fans on either side of the SSR bank, one to push, the other to pull. With them, the SSRs shouldn't even get warm to the touch.
Directly below the SSRs are four tiny boxes - they're traditional relays. Two each for the pumps (one "sanitary" for the wort path and the other simply to circulate water through the CFC and HE) and two are for the water inlet valves. One is to automatically fill the lauter tun, and the other is to fill the HE.
Below that are the terminal blocks. At the bottom are the high voltage terminals (from L to R, neutral, 120Vac phase 1, and 120Vac phase 2 which is essentially -120Vac). In the middle are the DC terminal blocks (from L to R, ground, 12Vdc, and 5Vdc). To the left of the blocks is a black box - it's simply a holder for an ordinary 120Vac duplex outlet. It is required to power the two "wall warts" (i.e. DC power supplies) which create the 5V and 12Vdc "rails" I need. I used off-the-shelf supplies because I had them handy. I could have incorporated them into the custom board I made but I had to ask myself why bother when I had them already.
This is the bottom of the thing. On the left are two duplex 120V outlets, one for the pumps and the other for the water inlet valves. You can see a bunch of holes on the bottom too - they're for the sensor inputs which I haven't had time to install yet. The square group of 4 are for the float switches - one high water emergency cutoff for the lauter tun, another for the HE (for the same purpose as for the lauter tun) and two for the grant - one high "pump on" and another "pump off". There are two groups of 3 holes, and they're for the sensors. Three temperature sensors - one for the lauter tun, one for the mash tun, and another for the HE, and three mass sensors for the lauter tun. Using the mass sensors I can set whatever target water volume I want, and given that a litre of water weighs a kilogram, I can accurately hit the target. I used three simply because of manufacturability - balancing a big SS vessel on one little sensor wouldn't be fun. With three I define a plane - no tipping, no balancing. Finally, over on the right is the power switch and the 240V/30A 10AWG dryer cord.
This is the right side of the enclosure. The 5 outlets are for the 5 heating elements. You can see the fan at right as well. This is the exhaust fan.
I still have the controller coding to do, but the custom PCB will arrive tomorrow. Tomorrow evening I'll begin to solder everything down. The way I designed it, the controller PCB will piggy-back on the touch screen. No extra mounting holes needed this way. Hopefully by the end of the month I'll have the thing all done.
h34r: 
