I partially agree with you that those old adjustment techniques are less important with the 510/520 system, but only to the extent we are talking about a legless "floating" table. Since that kind of table takes its position by the rails/tubes, twist doesn't matter. But getting rid of twist still matters with the 510/520 when using an extension table AND trying to tie the extension and main table together with the tubes to create a more rigid platform. Nick's video proves just how significant that twist becomes.
Regarding "purity" and the "secret" adjustment screw: I also noticed Nick mentioning how he had taken the machine out of adjustment prior to filming, but my guess is he first monkeyed around to get it into adjustment, then did the 1/4 turn to take it out of adjustment, so he knew how much he needed to turn the "secret" screw to get it properly adjusted quickly for filming purposes. And I'm still miffed he didn't prove the table could be swapped back to the other end and that the adjustments would hold. All he proved was that you could take one extension table, adjust it perfectly for one end, then swap it and get it into alignment in a particular location using the "secret" set screw. Even if the table could be swapped back, would that alignment and "swapability" hold as the Shopsmith is moved around to some other location?
Which brings me to a question that reible's posts got me thinking about. I have questions about twist being induced unintentionally after things are set up t. It seems to me like you could set things up nice and square and perpendicular on a nice flat surface, like a work bench, or even a studio floor, compensating things perfectly and possibly achieving the holy grail of perfect "swapability" without ever having to make adjustments again if the machine is only used on flat, even surfaces. But let's face it, the surfaces of most basements/garages/driveways where we use our Shopsmiths are not flat and have some uneven spots. I see this in my own basement when I move my jointer around and try to use infeed and outfeed tables. The floor may look flat, but it isn't remotely flat.
But still, wherever I move my Shopsmith on my uneven basement floor -- and I move it around a lot -- whenever I go to lower it down, it miraculously sits on all four of its feet. If that's the case, my machine has got to be twisting in some direction to accomplish this, right? And I can't see how the Shopsmith can accomodate the twist of sitting with all four legs flat on an uneven surface without that twist being translated to the orientation of the extension table leg bore holes in the headrest relative to those bore holes in the base arm assembly. Nick's 1/4 turn of the "secret" adjusting set screw shows just how much even a little twist can impact whether a swapped extension table remains sufficiently co-planar to the main table to tie that tables together using the tubes that run through the fence rails.
If I am correct about all this, it suggests to me that I (and I suspect most of us who don't work on essentially perfectly flat floors) can never achieve any kind of permanent swapability that will travel with the Shopsmith as you move it around your work area.
So here's what I want to know from folks who own a 510/520 and have purchased an extra extension table to dedicate it to the left side while using a separate extension table dedicated to the right side and who have a set of the extra long rail tubes:
- Do you find you can consistently tie the left extension table to the main table with the fence rail tubes and that you can tie the right extension table to the main table through the fence rail tubes?
- If so, can any of you tie all three tables together using the extra long rail tubes?
- If you can do one and two, what kind of area do you work in and how flat is the floor your Shopsmith sits on?
- Do you move your Shopsmith around your work area or does it remain in a fixed location?