Page 11 – Airheads Beemer Club

Alternators – Stock

BMW uses 3 phase electricity generators called alternators on all models since 1969, & some before that date. Why 3 phases? 3 Phase is more efficient at converting rotational energy to electricity. 3 phases enables the same or much more output in a smaller, lighter package, even less steel laminations are needed, & possibly more charging at lower rpm & possibly less horsepower drain on the engine. 3 phase is usually better for vehicles with radios & other electronics, as the system is, in effect, using an A.C. generator at higher frequencies than single phase. That means that with the battery acting like a monstrously large capacitor (which it DOES), alternator whine noise & other problems is MUCH reduced in a 3 phase system, compared to single phase. There are various other advantages that 3 phase offers. The 3 phase rotor MAY have less inertia, thus better vehicle acceleration, assuming diameter is kept small & overall inertia similarly, thus there may be a lowering of torsional stresses on the shaft & components. That last item can be critical on some engines where the rotor is affixed to the crankshaft & can be considered an extension of the crankshaft.

A 3 phase alternator is more compact & efficient … up to 1.73 times electrically more efficient.

At the link here, scan down the article, are sketches of the waveforms & some additional detailed information on single and three phase systems. http://bmwmotorcycletech.info/boxerelectrics.htm. The sketches will help you understand 3-phase.

Ø is the symbol universally accepted in electrical circuits for ‘phase’. A 3Ø system has few drawbacks. One is that the diodes circuitry used for rectification is more complex & there are more diodes; another is complexity & more labor in manufacturing.

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Alternator, Rotor, Stator, Brushes, etc.

Rotors and Stators:

This has been a confusing subject to many. Anton Largiader’s website article with text & photos will explain explain some things; or, some differently. I have minor disagreements with his article, BUT….it does have some useful information & has some photos you should look at. I have the most detailed and pertinent information here in my own article. Read Anton’s article here: http://largiader.com/articles/charging

The original /5 BMW Airhead motorcycles had a 180 watt alternator with the end that fits into the motor timing chest cavity being 105 mm in diameter. SOME 1974-1975 /6 bikes, & possibly a few barely into 1976, were made with the 105 mm cavity. These /6 bikes with 105 mm stators had 280 watt alternators, so it is possible to upgrade a /5 from the 180 watt alternator to a 105 mm 280 watt alternator with the appropriate parts changes and the parts WILL FIT. These changes are stator & diode board, at a minimum. If your /5 rotor measures ~7 ohms, which was the original value, then I recommend it be changed to a next version rotor of ~3.4 to 4 ohms; the electronics VR is optional, but recommended. ALL /6 and later stators had a center tap on the stator windings, & some small diodes were added to the diode board. If you do not use the /6 or later diode board, the output will be less. I suggest NOT using the last version of the Airhead rotors, which were ~2.8 ohms. For all other /6 and all later Airhead motorcycles, the cavity and stator were 107mm.

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2020 MOA Rally

The MOA Rally for 2020 will be held in Great Falls, Montana from June 25 – 27. Its never too early to start planning your trip! Registration is open. We hope to see you at Airheads Central!

ticketing system added

01/01/2020
by Website Robot

The Supportcandy ticketing system was added to the site 01/01/2020. The goal for implementing a ticketing system is to track, trend, and close support issues. We’ve implemented the FREE version to make sure it works for Members as well as the Web Team. Please keep the system’s price in mind when using the system!

Valve Settings

A couple of list members have asked me about valve setting procedures, Here’s how I go about it:

The bike should be cool. Pirsig, In Zen and the Art of Motorcycle Maintenence, writes how he gets up before dawn and sets his valves before the sun clears the horizon and hits the bike. This is a bit anal, in my opinion. The machine just needs to be cool to the touch. Allow an hour or more if this is your first time, with practice, you will get the time down to 20 minutes or so, but, for now, make it a leisurely, unhurried proceedure.

Remove the valve covers (you might want to have a pair of cover gaskets on hand as the gaskets can stick, tear or become rock-hard over time). If they are in good, clean shape, they can be left in place and reused. Have something underneath to catch the couple of tablespoons of oil that will fall out when the covers are removed.

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Valve Seat Recession – A Definitive Reply

A considerable percentage of BMW Airhead motorcycles have had various valve and/or valve seat problems, up until the 1985 models. This article will try to explain the background, and why the various problems developed, and why some have problems and some do not. Note that air-cooled motorcycles are more subject to ‘top-end’ stresses, than water cooled motorcycles.

Tetraethyl lead, TEL, is dangerous if absorbed through your skin when in pure form and much less so in diluted form, and it is a form of lead previously used extensively, highly diluted, in gasoline. Way back when it was still in use (still is in some parts of the World) it was sold by the Ethyl Corporation, and such gasoline’s had a nickname: Ethyl.

This compound has TWO major effects. First, in sufficiently high percentage, it can raise the octane value a fair amount, very important in WWII aircraft engines, especially those that were supercharged; some were both supercharged AND turbocharged. The original purpose for using tetraethyl lead in gasoline was specifically for raising octane. Some of those aircraft engines required 145 octane gasoline. Usage for the purpose of raising octane was carried forward for decades for cars, because it was cheaper, even when the lead was sold to the refineries expensively by the then Ethyl Corporation, than using only refining methods to increase octane. Many decades ago, premium (higher octane) gasoline’s were simply called “Ethyl”. Usually those gasoline’s had MORE TEL (Tetra Ethyl Lead). There is a lot more to this story, this is a simplified version of lead usage.

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Starting your Airhead motorcycle, including in cold weather

Cold weather starting is nearly always done, & properly so, by using 100% full choke and manipulating the throttle a bit during cranking, as the engine begins to start. Have the clutch lever at the handlebars pulled-in during the cranking to reduce loading of the starter motor by the transmission with its cold thick oil. Helps the battery too.

Many manuals, including the factory Owners Manuals will say to not touch the throttle. In my experience, that is wrong. I have found that most Airheads require some throttle manipulation upon starting in cold weather, and often in mild weather.

As soon as the engine is running, reduce the amount of choke as soon as you can, yet if you need to, and you likely will, keep ‘some’ choke on, until you have smooth running, including when riding. Too quick a reduction may result in the engine dying and needing a restart. Typically the choke lever is returned to ~half-way within half a minute. Even in the coldest weather, the choke lever should be returnable within a few minutes to the half-way position, and not long after to full off …or, nearly so. For very cold weather, try to keep the rpm between 1200-1500 during non-moving time until some decent warmup is had.

Never blip the throttle to high rpm when starting, this is particularly very bad with a cold engine and wear will be high. In some situations you can break rings or collapse an oil filter with a quite cold engine. Generally, you can start an engine & take off modestly, using quite moderate rpm, after 30 seconds to 2 minutes of high idle rpm (1200-1500), if the temperature is down to as low as 40°F or so. I suggest using modest throttle when taking off, and not going over 4500 rpm, preferably not over 4000, until the engine is warmed some, which takes a couple of minutes.

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Rocker arms, shafts, bushings/bearings. Rocker arm breakage. Valve gear. Pushrod tubes. Various parts of the cylinder heads

BREAKAGE OF ROCKER ARMS:

This is a rare occurrence, usually happens under racing conditions, with very high rpm, and/or high lift cams, increased valve spring strength, insufficient spring clearance at maximum lift, etc. However, it did happen, but rarely, on stock early Airheads, in non-racing use, and only in the /7 era, as far as I know. If you look closely at a rocker arm, immediately next to where the ADJUSTOR screws into the rocker arm, the web width there on the suspect rocker arms is about 7 mm wide. BMW made a production change and the rockers with the factory change had a 11 mm width. There was no change in the rocker part number. It does not appear to be a formal re-call by the Factory. I am not listing all the rocker part numbers, except two, because:
1. No new rockers are available that are 7 mm.
2. It is easy to confuse yourself over the SEVERAL part numbers used for the rockers. The original part numbers, long gone now, were 11-33-1-262-403 and -404.
3. You can measure your rockers.

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Replacing Rear Main Seal – 3 (Parkhouse)

This will be a long one… So I’ll break the reply into two parts: Tear down and reassembly.

Parts to have on hand… Rear main seal, oil pump O-ring, oil pump cover and 4 bolts (upgraded since /6 series), 5 new flywheel bolts, 4 driveshaft lockwashers, 4 driveshaft bolts, 6 clutch bolts, a new driveshaft boot if the old one is cracked or leaking.

Special tools… Clutch compressing screws (you can use bolts and nuts-less handy but works OK, or get from Ed Korn [see Links]), a flywheel brake (make out of bar stock or get from Ed Korn), rear main seal installer: from Ed Korn, 6mm allen drive on 3/8 socket, torque wrench, 10mm-12 point box end wrench (I like Snap-on’s), 27mm or 1 1/16″ socket (turned or ground down on outside), micrometer or calipers, slide hammer with hook attachment, impact screwdriver with large phillips bit.

Place bike on center stand (if a “Ride-off stand”, block up on 2X4s), you want to be able to turn rear wheel freely. Drain gearbox if work is planned on it. Drain driveshaft as oil will spill when it is disconnected. Remove gas tank, set aside out of way. Take carbs off cylinders and hang over front of cylinders, out of way.

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Replacing Rear Main Seal – 2 (Floyd)

>>Oh, no! I noticed oil running (drooling?) out behind the trans. If my diagnosis is correct, what seal is it?

I presume that when you say “behind” the trans, you mean at the trans-case interface? If you mean literally “behind” it, as in out from the boot at the trans output, you can stop reading. If not, you more than likely have a rear main seal failure. That’s the seal where the crankshaft emerges from the case to marry the flywheel.

Tools?
Pitfalls to avoid?
Tips?
Other items to replace or rehab at the same time?

With the bike now up on an elevated table (we call it the “surgery table”) and with the final drive, etal all the way off, it would be a shame to take it to the dealer. Plus the $$$$$ consideration.

Then this is the IDEAL time to do it. You have to pull off the final drive to pull the trans anyway, and that is a big part of the labor. You will need a few special tools… a flywheel holder (holds it in place so you can unbolt and later bolt the flywheel to the crank), a set of three ( I think) longish metric *fine* bolts for backing off the clutch’s diaphragm spring, and finally a tool for seating the new seal to the correct depth.

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