Demoh
Member
- 217
- 26
- 18
- Location
- St Pete, FL
So I am working on an 803 that has me a little stumped. I dont mind being stumped for as this is good brain exercise but I am hoping to see if anybody has a solution before I open the engine up to investigate (I prefer to not use consumables if I dont have to.) Unit was a non-runner picked up. From experience after seeing no-fuel and working on one of my waterlogged units I expected a stuck rack so after pulling the plug on the front cover the rack was indeed stuck. As soon as I touched the rack with the fuel shutoff solenoid pulled back the rack sprung into place and the unit ran for a bit. When I say a bit I mean I ran it long enough to gather some data and make a parts list. I threw this unit on the shelf for a few months while moving shops and traveling and life figuring I would circle back around to this one when I had more time.
Well fast forward some months I pulled it from storage and did my pre-trip and fired the generator up, but it involved draining the tank and putting just enough fuel in for the pickup tube. (knowing low fuel alarm would kill the gen if I didnt battle short it after start). The generator fired up to speed, stalled, caught and got up to speed again, then stalled. My first thought was oops forgot to hold start until oil pressure built.
Wouldnt restart. I pulled that inspection plug and the rack was stuck again. Unstuck it and fired it up again, it did the same surging as it did before.
I pull the injection pumps one by one. First this was no small task as either A) they are the wrong pumps / bad batch / something, as I had to double wrench the hard line nuts off of the injector pumps the ENTIRE length of the threads. I mean if I didnt know any better I would have thought they were all cross threaded and impacted on. I compared the threads with the other pumps I have laying around and the threads are the same except for diameter. The threads are bigger but I dont know why, did somebody tighten these down so tight that the bubble on the hard line caused the threads to expand? I dont see any evidence of that. This set came from albany however the engine had a tag from a company that ive never seen on a set out of there (aka commercially rebuilt / sourced maybe?) and the set engine looks like it has ZERO hours on the engine instead of the 2 hours all of the rebuilt ones have; the exhaust manifold paint is beautiful, shiny, and not any of it burnt off so that leads me to believe this set never ran. (but it is also different green paint than the normal sets ive seen out of albany/chamberburg)
Aside from that the pumps appear to function and freely move. I spend roughly 2 hours with the set manipulating the fuel rail with my hands in the engine like a raccoon trying to open a trap. I ended up disconnecting the solenoid to aid in troubleshooting. what I found is this:
1) with no pumps installed I cannot get the rail to stick within "normal travel ranges".
2) with 1, 2, 3, or 4 pumps installed, if I gently alternate between stop and run with the problem doesnt occur.
3) with 1, 2, 3, 4, or 1 or 2 known good pumps installed and I "snap" the linkage from run to stop, theres a 50% change the rail will stick in the stop position.
4) using a screwdriver through the access it is hard to unstick the linkage at times. The easiest method to unstick is when you have 1 pump out and you reach in and wiggle the rail up and down. side-side doesnt really free it but up and down does (basically rotating the rail ever so slightly)
5) when the pumps are installed they are infact installed with the pins captive in the rail. I am able to detect when I miss the slot.
6) all pumps are torqued down because when they arent the metering lever is very hard to move due to spring tension.
So what I have determined is when the rail over extends itself when to goes from run to stop, the metering levers on the pumps go fully as well, but the angle of which the rail is pushed combined with the angle of the metering arm on the pumps creates a condition where the springs controlling the tension on the fuel rail cannot overcome, even with only 1 injector pump. Its like there is a friction between the pin on the metering arm and the rail is very great and it doesnt slide very well. But why it does this is the question I am with right now.
When I say the rail over extends, the resting place of the rail when the linkage is in the stop position and when the rail is stuck is not the same. When it is stuck it is roughly 1/32 further forward. Enough where if I adjusted the stop that it wouldnt matter because the problem would still exist because I could 'bounce' the rail forward manually with my hand or if the linkage was connected to the solenoid the spring would have enough force to do that on its own.
Is there an additional spring that might be missing in the governor assembly, or is it an adjustment, or maybe excessive corrosion? Spring tension 'seems' normal when compared to other sets because I have small enough hands to be able to manipulate the rail through the pump holes, but without having it apart with a working unit next to it it is a guessing game right now. Is there anything I'm not seeing with this unit or are these findings enough to warrant tearing the covers off to investigate further?
Also one thing I noticed but probably unrelated: The solenoid linkage that is on the governor case. when going from run to stop it is supposed to slide the fuel rail towards the front of the engine. It does this however when it does the rail moves forward halfway, 'slips off' and returns to closer to run position and then catches on a second 'notch' on the linkage which will eventually bring the rail all the way to the stop position. I havent tested this with other sets but I think this is how it normally operates even though it seems odd on why it 'ratchets'.... maybe its to make sure the linkage is free and clear of the rack so that it doesnt interfere with the governor during normal operation.
Well fast forward some months I pulled it from storage and did my pre-trip and fired the generator up, but it involved draining the tank and putting just enough fuel in for the pickup tube. (knowing low fuel alarm would kill the gen if I didnt battle short it after start). The generator fired up to speed, stalled, caught and got up to speed again, then stalled. My first thought was oops forgot to hold start until oil pressure built.
Wouldnt restart. I pulled that inspection plug and the rack was stuck again. Unstuck it and fired it up again, it did the same surging as it did before.
I pull the injection pumps one by one. First this was no small task as either A) they are the wrong pumps / bad batch / something, as I had to double wrench the hard line nuts off of the injector pumps the ENTIRE length of the threads. I mean if I didnt know any better I would have thought they were all cross threaded and impacted on. I compared the threads with the other pumps I have laying around and the threads are the same except for diameter. The threads are bigger but I dont know why, did somebody tighten these down so tight that the bubble on the hard line caused the threads to expand? I dont see any evidence of that. This set came from albany however the engine had a tag from a company that ive never seen on a set out of there (aka commercially rebuilt / sourced maybe?) and the set engine looks like it has ZERO hours on the engine instead of the 2 hours all of the rebuilt ones have; the exhaust manifold paint is beautiful, shiny, and not any of it burnt off so that leads me to believe this set never ran. (but it is also different green paint than the normal sets ive seen out of albany/chamberburg)
Aside from that the pumps appear to function and freely move. I spend roughly 2 hours with the set manipulating the fuel rail with my hands in the engine like a raccoon trying to open a trap. I ended up disconnecting the solenoid to aid in troubleshooting. what I found is this:
1) with no pumps installed I cannot get the rail to stick within "normal travel ranges".
2) with 1, 2, 3, or 4 pumps installed, if I gently alternate between stop and run with the problem doesnt occur.
3) with 1, 2, 3, 4, or 1 or 2 known good pumps installed and I "snap" the linkage from run to stop, theres a 50% change the rail will stick in the stop position.
4) using a screwdriver through the access it is hard to unstick the linkage at times. The easiest method to unstick is when you have 1 pump out and you reach in and wiggle the rail up and down. side-side doesnt really free it but up and down does (basically rotating the rail ever so slightly)
5) when the pumps are installed they are infact installed with the pins captive in the rail. I am able to detect when I miss the slot.
6) all pumps are torqued down because when they arent the metering lever is very hard to move due to spring tension.
So what I have determined is when the rail over extends itself when to goes from run to stop, the metering levers on the pumps go fully as well, but the angle of which the rail is pushed combined with the angle of the metering arm on the pumps creates a condition where the springs controlling the tension on the fuel rail cannot overcome, even with only 1 injector pump. Its like there is a friction between the pin on the metering arm and the rail is very great and it doesnt slide very well. But why it does this is the question I am with right now.
When I say the rail over extends, the resting place of the rail when the linkage is in the stop position and when the rail is stuck is not the same. When it is stuck it is roughly 1/32 further forward. Enough where if I adjusted the stop that it wouldnt matter because the problem would still exist because I could 'bounce' the rail forward manually with my hand or if the linkage was connected to the solenoid the spring would have enough force to do that on its own.
Is there an additional spring that might be missing in the governor assembly, or is it an adjustment, or maybe excessive corrosion? Spring tension 'seems' normal when compared to other sets because I have small enough hands to be able to manipulate the rail through the pump holes, but without having it apart with a working unit next to it it is a guessing game right now. Is there anything I'm not seeing with this unit or are these findings enough to warrant tearing the covers off to investigate further?
Also one thing I noticed but probably unrelated: The solenoid linkage that is on the governor case. when going from run to stop it is supposed to slide the fuel rail towards the front of the engine. It does this however when it does the rail moves forward halfway, 'slips off' and returns to closer to run position and then catches on a second 'notch' on the linkage which will eventually bring the rail all the way to the stop position. I havent tested this with other sets but I think this is how it normally operates even though it seems odd on why it 'ratchets'.... maybe its to make sure the linkage is free and clear of the rack so that it doesnt interfere with the governor during normal operation.
