OK, let me just get this right.....Fitch you just HIT REVERSE with a couple hunnerd pounds in motion? (I realize that reversing force is probably only 20-30ft/lb but hey..... if it was hooked to my nose it'd hurt)
I know of hydrostatic drive heavy equipment where that's normal but that's because of bleeders and popoffs.. and routing. Does a three-phase offer such a smooth cushion that there's no shock or what?
al
Al, trust me on this, it works. Really. Why? Well, at the risk of TMI, I'll tell you why it works.
Well, first of all, the heaviest thing in the drive path is my 8" 4J chuck. I don't know what it weighs, but it isn't a lot, so the rotational inertia (Wk^2) is relatively small.
Second, I only do it when I'm threading which I seldom if ever do at more than 50 rpm, usually at 35 rpm, so there the angular velocity squared term is small.
Third, I'm hooked to a rotary converter which be default limits the current to the generated leg compared to a power company supplied three phase source.
Finally, if you look at the drive train, the gear ratio between the 1725 rpm motor and the spindle is about 34.5:1 when the spindle is set for 50 rpm. Inertia is reflected from the spindle to the motor inversly as the square of the ratio, which means the motor is seeing ~0.08% of the spindle inertia under threading conditions - in other words, the motor is seeing conditions not much more than if it was reversing itself. The inertia of the pulleys and the first couple of gear shafts are way more significant than the spindle, but they don't have a lot of inertia to them - and even the driven pulley will see a reduction of something like 1/9. Combine the small spindle inertia (that the motor can't even see much of) with the slow speed (very little kinetic energy) and the limited current and it is pretty much a non event.
I did it from full speed a couple of times as a test for the converter a couple of decades ago when I built it. Lathe slows down over several revolutions then accelerates back in the other direction to full speed. It probably puts about as much heat in the motor as starting it twice at full speed.
I'm running my 2hp 3ph spindle motor off a 5hp idler that's balanced (using run capacitors) to give a voltage of 108% of line between each line and the generated leg and a power factor correction cap that results in about 5 amps of idle current (no load). The whole thing is powered off a 20A 220V single phase circuit and will run the lathe and mill at the same time if I wanted to do that - and I've done that when I was flycutting the surface of a piece of metal in the mill feeding it as slow as the feed would go - mill motor doing almost no work.
If I wanted to make the reverse snappier I could turn on my mill (also 2hp 3ph) and let it run unloaded while running the lathe. That effectively turns it from a perfectly (my opinion) balanced 5hp converter into a poorly balanced 7hp converter with more surge capacity. I don't do that because there is no reason to. But I tried it after I built the converter because I wanted to know the limits of the system.
Anyway, if all this hasn't put you to sleep, it works a treat for threading if the drive motor is powered by a converter, or if it is powered from the power company 3 ph line. I've never tried it with a 3ph inverter (variable speed) drive. It might work, but I'd think it would have to be a programmed ramp down and back up, and it might not like it much - but it might work at low speed.
There ya go, everything you ever wanted to know about plug reversing a small lathe.
Fitch
