badhabrace wrote:I may be using the wrong words here. My shock has the 2 nuts at the top. There is a sticker that I don't really understand. It looks like settings for 2 and another for 2 people + baggage. The problem is I have osteoarthritius in my hips,shoulder and back. I can't seem to get my feet on the ground quickly enough. I dropped the bike on each side last year and don't want to that again
Those are the adjuster rings for the spring preload. The more weight on the bike the more preload required to compensate which is why that decal shows a shorter spring length for more weight. If you lower those rings and compress the spring (ie shortening the spring length) it would increase preload and raise height. I wouldn't recommend doing the inverse as a way of lowering the bike as others have said, the spring needs to have some tension on it to retain it and prevent it from floating if you top out over a crest and the like. It also depends on your weight in respect of sag. Ideally you probably want about 30mm sag.
I have just spent a little time adjusting the suspension on mine to where I like it. I'll probably do a write up on it at some point with photos for the benefit of others. The 907 has a decent range of adjustments on it, it's amazing the difference it can make to the bike setting it up correctly to your own preferences and weight etc. Some shocks have length adjustment on them and you may find one that fits, however it can throw the geometry of the bike out. I'm not sure how much movement there is to raise the front forks in the triple tree to drop the front ride height to match.
I have a Tuono with fully adjustable Ohlins, the previous owner had lowered it and it was downright dangerous. If the axle line of the rear sprocket is much higher than the front sprocket spline, it can induce some horrible squat, whereas increasing the rear ride height can produce some desirable anti squat. Mine was virtually unridable.
As others have said, best way is to try and take it out of the seat if possible.
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For those who like reading and haven't switched off yet, here is a good explanation and diagram from a website which is no longer active with regards to Squat.
THE REAR END FIRST or I Don't know Squat!
The entire geometry of a motorcycle can be based around the rear axle position.(please, just go with me on this)
If we consider this point to be 'fixed' then all other movements of the bike & suspension that occur during riding or any modification we make actually pivot around the rear axle, or move in relation to it. ( You could use the swing arm pivot point, but I think the back axle is a lot easier.)
Because of this, I will commence the design & build from here.
One of the most critical elements to good handling and getting power to the ground is the amount "squat/anti-squat" built into the bike.
The effect of "squat" is often misunderstood as it is a bit counter-intuitive. If we watch a powerful bike, or an old style muscle car, take off and accelerate hard from a standing start, we often see the rear end dip or "squat" down. This looks great, the rear tyres are obviously being "planted" into the road, increasing traction…. SORRY…WRONG!.
There are a number of things happening to cause the squat, but the end result is the tyre being lifted up towards the vehicle and away from the road. Result: Less traction and drive.
For a Motorcycle, three things that are occurring are:
Rotation of the bike around the rear axle, due to traction.
(imagine taking off with the back wheel bolted to the road)
Lifting the front end, transferring weight to the rear, and compressing the rear springs. SQUAT!
Secondly, the chain is pulling the top of the rear sprocket in a line from the top of the front sprocket. This pull wants to shorten the distance between the sprockets, the only practical way for this to occur is by rotation of the swing-arm. If the configuration of sprockets and the angle of the swingarm is such that rotation will shorten the distance, then the swingarm pivot will be pushed down towards the ground, once again compressing the rear springs. SQUAT!! (see drawing below)
Thirdly, the pull of the chain on the rear sprocket, resisted by the grip of the tyre on the track is attempting to push the bike forward through the rear axle and the swing arm pivot (a straight line, approximated by the swing arm ) If this "line of Thrust" is above the Centre of Mass (commonly called, centre of gravity), weight will be transferred to the front of the bike. If below the CoM the bike will rotate backwards transferring weight to the rear. More SQUAT!!!