Awesome! did you swap the head for a 60 hz? if so details please inquiring minds want to know!
The following information pertains to the MEP113a to MEP004 15KW generators.
Yes I did swap it out, I couldn't find a used head locally so i went with a Marathon model # 361CSL1602 for a SAE 2 bell housing with SAE DDC 15.5 coupling.
Check this site out for more information.
Generator Parts - Generator Ends and Voltage Regulators
I know the price is up there, but I only paid $650 for the Generator with 26 hours on the meter so I think in the long run I'll be money ahead.
I also removed the dog house on the Generator head for clearance so I could keep the unit as stock as possible.
There are some modifications that have to be done for this conversion, remove the existing generator mounts and fabricate new ones that are approximately 7/8" tall and put 1" spacers on the grill below the main control panel. And if you have a ASK housing like I do, then you'll have to trim the grill too.
This is a 12 wire head that I wired in a double delta configuration and according to Marathon will put out 42KW at 120/240 Volt. The load that I was running during the storm averaged 21 KW and I had some peaks of 28KW.
I didn't use anything except for the main contactor when it came to the AC Volt side of the generator, apparently the original voltage regulator was out on the unit when I got it. So I disconnected everything coming into the contactor and for electrical protection I added a 150 amp 3 phase breaker between the generator and the main contactor.
I plan on going through all the electrical after the weather improves and install the correct 60hz gauge and get all the fault lights powered back up.
This generator head also comes with a voltage regulator which I'll probably use full time unless the correct unit falls into my lap. The regulator has adjustment pots built into it but you can add a remote voltage adjustment pot, which I'm going to wire into the original control panel.
The total conversion time was somewhere in the 30 hour range time frame.
I don't have pictures of the project as it was being done but the general description is as follows.
#1 pull the top off of the sound suppression kit which involves and allen wrench to unlock the cam locks along with an allen headed bolt on each end of the top panel. The bolts are hidden under each of the riser boxes that attach to the top panel.
#2 pull the end panel to expose the main control panel and generator head, followed by the air intake grill.
#3 remove the main electrical control panel and the end panel that supported the intake grill along with the manual speed control linkage.
#4 remove the cowling that is over the generator head, make sure to disconnect the fuel line that goes to the filter housing along with all the electrical connections that are connected to the generator head along with what runs the engine.
#5 support the end of the engine so that it doesn't fall when you remove the engine from the head as the is only a front motor mount on these generators, the back of the engine is supported by the generator itself. The TM shows a piece of all thread ran through a frame cross member above the generator with a hook or clevis that attaches to the lifting eye of the engine.
#6 remove the Generator head (I had a forklift for this part)n from the housing.
#7 Cut out the orginal C chanel steel mounts and modify to be reused to reattach the cowling later.
#8 install new Generator head mounts ( I had my local machine shop make these).
At this point it's time to assemble in the reverse order.
I took me about 3 hours to get it down to the point that I was ready to remove the head from engine but I would guess that if you didn't have a sound suppression kit it would take less time.
With all of the AC side disconnected I had to run the unit in "Battle short" for the main contactor to operate correctly and supply power to the house.
I would guess that if a person has a 400hz unit that runs correctly, all they would have to do is replace the head and change out the 400hz specific components such as the under/over HZ fault relay and the HZ gauge.
