Ok, so here is what I have found so far:
http://pdf.directindustry.com/pdf/the-hilliard-corporation/auto-lok-differential/29728-19456.html
Page 1,2,and 3 show the "Auto-Lok" differential which looks like it comes with a sprocket.
Page 4 shows a "Front Drive System Differential" which is a complete ring and pinion assembly.
I have requested a price quote and will get back to you on that when it comes in.
HERE IS MY PROBLEM:
If you read the descriptions of these differentials you will find that they appear almost too good to be true and i find that the information almost contradicts itself in the descriptions.
Maybe I'm wrong and my guess is correct, but please... if someone knows how these work, inform me. (thanks)
I have a guess as to how these differentials work:
(lets forget about 4wd for now and concentrate on just one axle)
From the descriptions you will see that the inner wheel is the only wheel powered in a turn, and after straightening out it claims both wheels are under power. I would guess this to mean that there is a clutch or ratchet of some kind that allows either of the wheels to "get ahead" of the other durring a turn...in other words, one of the wheels is rolling faster than the driveshaft is saying it should.
if thats how it works (bear with me now):
One wheel is allowed to spin ahead of the wheel under power, then that means this may be the answer to our problems. I would guess this to mean that so long as both wheels are turning at the same (power output) speed they are locked together... one wheel NEVER spinning less than the power output.
I would guess you could:
1. drift corners spinning both wheels (assuming you have enough power to break the traction)
2. drive with all the power even when one wheel is lifted off the ground.
3. make sharp turns without tire scuffing (only if your inside tire is capable of pushing the vehicle through the turn).
If my guess is correct then I can only see one problem (which isn't such a big problem for my application):
If you were to try and make a sharp turn with ONLY the inner wheel powered, it requires that your tire have enough traction and power to push your vehicle through the turn... and if you could imagine a very sharp turn being powered only by the inner wheel, you will start to see why that will become a problem. What whould most likely happen in a sharp turn w/ little traction is that inner wheel (under power) will slip and catch up to the same speed as the outer wheel (coasting) and the power will be applied to both wheels (inner wheel now slipping and outer wheel propelling the vehicle)... the bummer is that for the time it takes the inner wheel to catch up to speed with the outter wheel is the amount of time you are essentially (screwed) with an "open" diff.
this seems to make sense in my head, please let me know if this sounds correct.
-josh
hell yea. Iv never drawn up a plan on anything iv ever built from scratch. Its more better to do it on the fly. And as you go your going to see that changes need to be made anyway. 