I put block off plates on all the forks I need to for drag racing & have done it on several street bikes also with no handling issues. Go ride it BEFORE you modify the plates & if you don't like the feel then mill a groove in them to connect the holes. To put an effective groove in the plates you will need the plates to be at LEAST 1/4 inch thick. Ray.

While I personally have not done this either, on more than one occasion I've been told that because the anti dive really doesn't work that well, using a solid flat plate to cover it up will do very little to the overall handling.

Just take it easy when you ride it the first couple of times.

I can't say I understand the need to block off the unit when loosing the brake lines does all that is needed. Just fill the forks to the correct level with fork oil and add progressive springs. I did just that and my 1100ed is SO much better to ride now. Just my 2 cents.

Josh

I may still have a set of plates I made up around here somewhere. I used aluminum plate and created two for each fork leg. One set had slots connecting the two ports and the other set were solid and fit over the slotted pair on each leg. I found just using a solid set stiffened the fork up too much. A set of Progressive springs and allowing the fork oil to always flow between the two ports gave good results.

Good info Billy.

When you made the plates how thick were they and how deep was the interconnect channel? The plates I made are 1/4" thick but not sure that is thick enough to support a suitably deep channel.

But, I think is easier to leave the stock anti dive units that allows the free flow of fork fluid and provide stock look to the bike, or I am missing something??

About the brakes, some people here said to remove the brake hose from anti dive plunger provides better braking, in my case, I have the stock brakes layout and have excellent front brakes. Its a hard time to bleed it but that's the price to keep the bike stock and complete.

Regarding the progressives, I already has a set to be installed, but, the question is: Is really a good improvement (over progressives) to install Racetech emulators??

Also, (I know) which is the correct way to fill the forks with air and the correct pressure??

I want to use this opportunity to say you all congratulations for this excellent site and to have the contribution of all those great and experienced GS'rs.

jacora

Total thickness of the two pieces for each leg is only about 1/8" thick. I just used some bronze tone aluminum window channel I picked up off of a construction job I was working on. The channel I cut was only about 1/4" wide and due to the thickness of the aluminum only about 1/16" deep, it flowed well enough to give the fork good action. I'll see if I still have them lying around and post a photo.

I ran block off plates for 20 yrs on my '83 750ED model. Plates were app 1/4 in thick and non groved. You would be surprised how heavy the stock units are - removing them cannot hurt. I would even argue that any loss of unsprung weight - even on a pig like the old GS - is a positive thing.

I had no handling issues and the bike was ridden very hard on the street.

Good Luck, Ed

Made a second set of block-off plates. Used 3/8" plate this time and added a groove.

Suspension compliance in terms of compression damping is significantly different between the grooved and non-grooved block off plate; the grooved plate is much smoother, huge difference. With the flat plate the forks seemed very stiff in compression but with the grooved plate the forks compress nice and smooth. Need to try them on the road next...

Nessism, What diameter groove did you use? Assuming there is a difference between the grooved and the non-grooved plates, I would think using grooves smaller than what you have done would offer a compression rate somewhere between what you describe. If so, we'd basically have an adjustable dampening system, right? So, who can rig up something where we just turn a knob on these blockoff plates allowing us to manually control the compression rate ourselves?

Dardoonk,

I'm not sure how the damping mechanism inside the forks works. Was assuming the oil flowed though some orifice(s) inside the fork to control the damping and the anti-dive just diverted the oil away from the normal damping circuit. Could be wrong of course. Do you think the forks are designed with a planned amount of oil restriction through the anti-dive circuit, even when the brakes are not applied? Honestly, not sure. Going to study the manual to see if I can figure something out.

I do know that the forks seem smooth now. Pumping on them with my hands shows that there is damping action, both in compression and rebound. Don't have another fork that's off the bike to compare to though.

I'm not sure either. I've never dis-assembled and anti-dive unit to figure out how it exactly worked. When I had mine apart, I soaked them Seafoam & sprayed cleaner thru them to get all the gunk out. When I did that, I remember spraying in one hole and fluid came out the other; therefore my assumption was that when applying the brakes, the fluid pressure from the line reduced or cut off the flow between the two holes we keep blocking off. If that IS the way the unit is designed, there may be some validity to my idea of making something adjustable.

After I posted last night, I thought about this some more and decided it could be easier to convert the entire anti-dive unit to something manually adjustable.

My reasoning behind this is either ignorance or simple, I don't know which. Suzuki probably has a good idea that never earned it's merit due to one simple design flaw - it takes more pressure to make the anti-dive unit work than it does to stop our bike under normal conditions. IE: more restriction in the unit is required than our brake system can generate while safely stopping us.

If brake pressure in the dive unit presses a check valve, or something similar, which in turn cuts flow between the holes in the forks. Maybe taking control of the dive unit mechanically would give the same benefit as the plates, but still offer some adjustability to control compression.

Well, before I could finish writing this, I did a search and came up with the following from a 1982 Review on Katana Central:
The entire article is here: http://www.katanacentral.co.uk/reall...8_gsx1100s.asp

So it looks like I am partly right, but haven't accounted for the spring to release the pressure. But, then again, maybe the spring is the problem?

If anyone has any pics of a dis-assembled anti-dive unit, I'd like to see them.

I'd like to take a couple apart to see how they work, but have no extras. If anyone has a couple of them that can be donated into research, let me know.

Now with your 3/8 plate. Or a thicker one, thread a hole and install an adjustment screw so you can vary the passage size. Basically a controlled restriction.
It would be a simple form of making the fork adjustable.

those look slick!