PSG-1
Well-known member
Ranchero50 said:
I have an old repair manual for the Sea-Doo Speedster jetboat I used to own, I couldn't find a spec. for engine alignment, but it states that the max. permissible driveshaft deflection (how straight it is) is .020"
For the alignment of the Yamaha coupler, max. permissible mis-alignment is .020" I would guess that the Sea Doo is probably somewhere in that range. With the sea-doo, observe that you have metal-to-metal contact with the spline drive. While it does indeed work, I think the spartan jaw, or love-joy coupler design is better, because it uses that rubber spider to eliminate the metal-to-metal wear.
Also, sea-doo uses that massive, heavy 'harmonic balancer' on the driveshaft. This extra weight robs a lot of power on take off. (I have shaved these down on the lathe a few times for people looking for quicker hole shot)
Special alignment tools may be needed for the Sea Doo. For the Yamaha, you simply lay a straight edge across both sets of jaws of the coupler, then use a feeler gauge to check the gap, and check it at 3 points, about 120 degrees apart. I managed to get mine within about .005" The closer you get it, the longer the life of your bearings, driveshaft, and thru-hull seals and bearings. Get it too far out of alignment and at the very least, you'll 'waller out' the thru hull seals and get a slow leak.....or it can be severe enough to damage bearings in the pump or thru-hull. Again, you want it as close as you can get.
yes. It would set up the perfect condition for 'crevice corrosion' which occurs when aluminum is against another object, and salt water can get in between. It begins to swell the aluminum, and the metal actually begins to absorb moisture (aluminum is very porous) and it begins to form 'sugar' (white powder) Once it starts doing this, it's nearly impossible to repair by welding, unless you use TIG, and you burn the crap out of it, you may have to make 2 or 3 passes to float the impurities out of the metal.
That looked like one helluva challenge, for sure! You probably would not be able to build an intake scoop without some type of CAD program, and a LOT of machining experience, which I do not have. I do have a lathe and a mill, and I know just enough to do basic things, but that's about it.
When you say 'out the pod' do you mean out of the jet tunnel, like I did with mine? This is by far the best way to do it, in fact, that's what Yamaha does on their jet skis now.
I've never measured the distance I need to plane off, or the exact depth I need to plane off. But it does seem that I can plane faster in shallow water, and I think this is because of the pressure cushion that forms between the hull and the bottom, which gives added lift.
You can see this occurrence with ANY boat. Simply get on plane in water about 1-2 feet deep, and run just fast enough that you are on plane. Go into an area where the depth is deeper, like 3-4 feet, and you can feel the stern squat lower in the water. And it works vice-versa, too. When you start getting into a shallow area, you can actually feel the boat begin to rise. I use this method a lot when I'm in an unfamiliar area, particularly with my 16' Triton with the 50 Merc.
