Map63Vette
Well-Known Member
So long ago when I first bought my car it had the factory Dodge power steering. Fast forward a bit and when I did my 5.7 Hemi swap, I changed over to a standard 24:1 manual steering box as there weren't really power options at the time, and I didn't really like the finger light Dodge style power steering anyway (Borgeson was still working on their PS box back when I did my engine swap, and it was expensive). Fast forward many more years and when I got my new job I started updating my Dart more as it was becoming my go-to daily driver. I was getting tired of having to sling the wheel around multiple times in a parking lot, so I swapped over to a 16:1 manual box with the thought that I might do an EPAS setup at some point. The 16:1 box isn't too bad to drive day to day, but it can get heavy at times and one handed driving around low speed corners can get interesting (car is a stick shift as well, so one handed driving is more common). This past Christmas I got a pretty complete EPAS column setup from a Toyota, so I bought a spare Dodge column to cut up to see how I could merge the two into one.
So far I've only really taken both columns fully apart to see what I have to work with and to do some measurements to figure out how I want to graft it all together. It actually looks like it might not be all that bad to get the two stuck together, though the input shaft is going to be the main one I'm still thinking about. I'll try to get some pictures this weekend to show all the parts, but I did measure them all up the other day and try to get them into CAD so I can do some layout work and get a better idea of where I might want to cut stuff down. I went ahead and 3D scanned the motor and column mounting bracket as well just for the fun of it and it actually lays over my crude model pretty good.
The general plan at the moment is to press the inner "shift" tube (it's just a dummy tube on my column since I have a console shift setup) onto the bore of the EPAS motor as they are pretty close in diameter. I'll also need to make some kind of spacer to go between the inner shift tube and the outer column housing to make them more solid. I'll have to cut down the Toyota and Dodge input shafts and weld/join them together in some way. I can go a couple of ways on the output side depending on whether I want to keep the collapsible part of the column or not. The "cheap" plan would be to just cut down the Toyota output shaft I have and weld it to a portion of the Dodge output shaft. That would be simple and straightforward, but would mean no collapsing anymore. If I want to maintain some amount of collapsibility it looks like I can buy U-joints and a telescoping shaft from Borgeson to join the two together. Drives the cost up quite a bit, but would potentially make for a safer setup in the event of an accident.
On the electronic side, my plan is to send the actual CAN messages the controller wants to see to the EPAS module so that I get variable assist depending on speed. I hooked things up on my test bench and was reading the CAN messages off the module to see what it thought was going on, but I don't have a ton of info on those at the moment. I can see the output of the torque sensor and some status messages, but I don't know what the actual status messages mean just yet. Once I get it in the car I'll see what kind of assist I get out of it and if the factory scaling is palatable or if I want to tweak it.
So plenty of work ahead and likely something I'll take my time with as I'd like to make sure it's done well, but figured some of you might find it interesting.
So far I've only really taken both columns fully apart to see what I have to work with and to do some measurements to figure out how I want to graft it all together. It actually looks like it might not be all that bad to get the two stuck together, though the input shaft is going to be the main one I'm still thinking about. I'll try to get some pictures this weekend to show all the parts, but I did measure them all up the other day and try to get them into CAD so I can do some layout work and get a better idea of where I might want to cut stuff down. I went ahead and 3D scanned the motor and column mounting bracket as well just for the fun of it and it actually lays over my crude model pretty good.
The general plan at the moment is to press the inner "shift" tube (it's just a dummy tube on my column since I have a console shift setup) onto the bore of the EPAS motor as they are pretty close in diameter. I'll also need to make some kind of spacer to go between the inner shift tube and the outer column housing to make them more solid. I'll have to cut down the Toyota and Dodge input shafts and weld/join them together in some way. I can go a couple of ways on the output side depending on whether I want to keep the collapsible part of the column or not. The "cheap" plan would be to just cut down the Toyota output shaft I have and weld it to a portion of the Dodge output shaft. That would be simple and straightforward, but would mean no collapsing anymore. If I want to maintain some amount of collapsibility it looks like I can buy U-joints and a telescoping shaft from Borgeson to join the two together. Drives the cost up quite a bit, but would potentially make for a safer setup in the event of an accident.
On the electronic side, my plan is to send the actual CAN messages the controller wants to see to the EPAS module so that I get variable assist depending on speed. I hooked things up on my test bench and was reading the CAN messages off the module to see what it thought was going on, but I don't have a ton of info on those at the moment. I can see the output of the torque sensor and some status messages, but I don't know what the actual status messages mean just yet. Once I get it in the car I'll see what kind of assist I get out of it and if the factory scaling is palatable or if I want to tweak it.
So plenty of work ahead and likely something I'll take my time with as I'd like to make sure it's done well, but figured some of you might find it interesting.
