I've started this thread here as I think it is more a general type discussion ---- and it's a long write and..... please note - I am but one who is submitting an idea/thought/ theory/suggestion, and in no way do I mean the following to be an absolute
For a long while I've been thinking about how some VIN/E combinations are close whilst others are way off. Sure, many pairings are as a result of mixing frames with engines from another set and so on. However there are many pairs that have a large spread yet don't seem to be the norm I will use the earliest such as VIN7 E90, VIN9 E98 and VIN28 E132 as examples (but there are many more) as these 3, I submit, are paired from the factory
The statement that a frame/engine combination can be up to 300 out is really a myth IMHO. I actually don't know where this claim originated from or what evidence there is to support the generally held view. No doubt there are FACTORY frame/engine combinations that this can hold true for BUT, and this is the key, why 300 and not 400 or 500. Nevertheless, there are not that many with wide variation and my belief is that the 300 or higher rule should be used with caution for all large variations. Certainly for the first 300 VIN bikes, such a variation is unlikely. As Dwayne said in another post, the number of recorded VINs in our register is not that many so making any observations is at best, just an observation. Indeed the first VIN we register (not including the aforementioned 3 in para 1) with any wide variation is VIN 179 and of the VIN's recorded up to around 1200 there are only 3 with a variation of over 300. Again not a large sample size.
I have looked right through the registry and as we get higher in the VIN numbering there seems to be some interesting variations. Between VIN 2000 and VIN 2999 there is a good number that the a 300 rule would apply even with the small number we have registered. Are they factory pairings. Assume that 50% are then a 300 rule would be reasonable for some. Some years ago I did an exercise of all the then registered VINs and found that over 50% on E numbers were lower than the VIN number. This is an anomaly we've already discussed I just raise it to refresh members memories.
The fact is that most recorded VINs (again small sample size) have an E pairing very close, with the norm being from 50 to 100 difference where a few are up to 200 with a much lesser number over this variation. Some pairings are well out of wack yet these pairings are said (owner claims state this) are original pairings. If I recall Chris R had one of these odd pairings
So the question is why such variation with some pairings. Hmmmm! That's a real dilemma but there are many such pairs that ARE original factory delivered bikes so why?
There is no recorded answer but I believe there are but 2, maybe 3, possibilities.
1: Pure random selection on the production line. High probability/possibility
2: Faulty Engine on quality control test. High possibility
3.
I personally think that the #2 is a real possibility and equally real probability given there would have been bikes that failed to pass quality control. Lets be realistic, Honda didn't ship such bikes knowing they had a problem, expecting the dealers to fix
Remember that this was a new engine and new engine assembly line and we do know there were issues such as porosity of the casting. So imagine: a new bike rolls off the production line and during its quality control check an oil leak, engine knock, smoking or any number of issues turns up.
Do they try and repair the engine. I think not
or
Do they take said bike remove the engine and replace it with another. This is the most probable solution but pure conjecture on my part although this currently occurs on modern production lines as I understand
Nevertheless, a fault in an engine on completion from the production line usually results in a replacement being fitted. One can ask why the engine isn't tested prior to installation. My understanding of engine manufacture is that this does not occur for several reasons. All engine assembly conditions/methodologies/trainings are completed during test production phase and the confidence interval for a good engine assembly is high earlier on and becomes very high during later assembly, and testing is better completed during Dyno/Road testing under real load conditions. A problem experienced by all auto manufactures with a new model (certainly in the late 60s 70s) is production teething. Whilst the Japanese had a good track record they were no immune
Anyway I thought this would be a good topic for discussion on a larger membership scale.