bentheswift
Automotive
- Jan 22, 2006
- 9
I'm trying to lay the groundwork for our university's next Formula SAE car.
We have a "legacy" differential that we have developed over several years. It is a fairly effective clutch-pack limited slip differential. The latest iteration has the gear carrier integrated with the housing, mounted to the chassis by its bearings. There are two spider gears that spin on a hardened steel shaft. Each of the side gears sits on two clutches that act as the limited-slip mechanism. The torque bias ratio is adjustable from the 1.25ish range to about 3. (We've found that the car is fastest with very little bias.) The differential is driven by a chain connected to the output sprocket of the engine. The entire assembly without axles is less than ten pounds.
We have also used a helical-gear torsen I style differential in the past. It is however too heavy and has too high TBR for our uses.
I've been looking at a couple of other options. The first is using a hydraulic pump to energize the clutches during wheel slip. The pump would be driven by differential wheel velocity thus making the locking mechanism activated by the velocity differential rather than drive torque. This seems to be a good idea, since (ideally) you'd be able to tune the pump to cause little to no bias below a differential velocity (say the wheel speed difference at the smallest radius corner you expect to see), while easily locking the wheels together if that limit is exceeded. The clutch pack diff will bias torque during cornering under power, regardless of whether one wheel is spinning or not, thus applying an undesirable understeer moment to the car.
I've seen some schematics of some GM (Versatrak?) gerotor differentials, and they seem fairly straightforward. It seems like we could package it in a smaller space and possibly even make it lighter. We have about sixteen million oil pumps laying around from broken engines (in fact we build our custom dry sump scavenge pump using two gerotor pumps from the stock oil pump).
The other type that I'm very curious about is the Weismann locker. I can find almost zero information about this differential. There is a brief textual description on a patent application I found on google, but I can't find any schematics or descriptions -- anywhere. Weismann's website looks like it has not been updated since 1995 and it sounds like they don't want to hand out that sort of information. But I know that this differential has serious competition history and I hear that most F1 diffs are derivatives of it.
I would appreciate any information or advice that is available. Thanks,
Ben
We have a "legacy" differential that we have developed over several years. It is a fairly effective clutch-pack limited slip differential. The latest iteration has the gear carrier integrated with the housing, mounted to the chassis by its bearings. There are two spider gears that spin on a hardened steel shaft. Each of the side gears sits on two clutches that act as the limited-slip mechanism. The torque bias ratio is adjustable from the 1.25ish range to about 3. (We've found that the car is fastest with very little bias.) The differential is driven by a chain connected to the output sprocket of the engine. The entire assembly without axles is less than ten pounds.
We have also used a helical-gear torsen I style differential in the past. It is however too heavy and has too high TBR for our uses.
I've been looking at a couple of other options. The first is using a hydraulic pump to energize the clutches during wheel slip. The pump would be driven by differential wheel velocity thus making the locking mechanism activated by the velocity differential rather than drive torque. This seems to be a good idea, since (ideally) you'd be able to tune the pump to cause little to no bias below a differential velocity (say the wheel speed difference at the smallest radius corner you expect to see), while easily locking the wheels together if that limit is exceeded. The clutch pack diff will bias torque during cornering under power, regardless of whether one wheel is spinning or not, thus applying an undesirable understeer moment to the car.
I've seen some schematics of some GM (Versatrak?) gerotor differentials, and they seem fairly straightforward. It seems like we could package it in a smaller space and possibly even make it lighter. We have about sixteen million oil pumps laying around from broken engines (in fact we build our custom dry sump scavenge pump using two gerotor pumps from the stock oil pump).
The other type that I'm very curious about is the Weismann locker. I can find almost zero information about this differential. There is a brief textual description on a patent application I found on google, but I can't find any schematics or descriptions -- anywhere. Weismann's website looks like it has not been updated since 1995 and it sounds like they don't want to hand out that sort of information. But I know that this differential has serious competition history and I hear that most F1 diffs are derivatives of it.
I would appreciate any information or advice that is available. Thanks,
Ben
