Crazy ideas sometimes make the best ideas.
Tuesday, October 9, 2018
Saturday, July 7, 2018
Just picked up some clioons for $1.75 each off ebay. And they fit almost a good as my $50 custom frame fitted for my oakley airdrops. And i think they look good... i must be old liking clioons lmao they work great for blocking out all my haters. Plain air drops top left, topright $50frame fitting, bottom 2 cheap ebay clioons
Happy 7s day. Its been along road with me and rx7s but i loved every second of it.#nevergiveup #fbrx7 #coilovers #drift #rx7v8 #rx7fb #slidesociety #rx7 #custommade #hks #adjustablelca #biggerbrakes #wheelspacers #wheels #flushfit #stance #1stgenrx7 #cleanfbs #driftcar #japaneseiron #detroitsteel #hybrid #vhate #302ford #400hpclub #mazdarx7 #mazdarx7fb #bonusround #7sday
Thursday, May 17, 2018
Wednesday, March 14, 2018
Lobster dinner nom Onion Garlic Lemon Sauce Rotini and Lobster Tail 1st make Noodles per instructions Sauce Makes about 2 cups 2 tablespoons olive oil 2 large onions (regular or red, or one of each), chopped 4 large cloves garlic, minced 2 tablespoons unbleached white flour 3 tablespoons reduced-sodium soy sauce or Bragg’s liquid aminos 2 tablespoons dry red wine, optional 1 lemon Freshly ground pepper to taste Heat the oil in a saucepan. Add the onions. Sauté over medium-low heat until golden. Add the garlic and sauté over low heat until the onion is lightly browned, stirring frequently. Sprinkle in the flour slowly and stir in. Slowly add 1 1/4 cups of water, raise the heat, and bring to a rapid simmer. Squeeze entire lemon in sauce Add the soy sauce, optional wine, and pepper. Lower the heat and simmer very gently for 10 minutes longer, add pasta then serve. Lobster tail NOTE: Always use thawed tails (overnight in the fridge or place frozen tails in cool water for 60 minutes, changing water halfway through.) STEP 1 – Preheat you oven to 425°. Do NOT use convection oven settings. Prep your thawed tails with kitchen scissors or a very sharp knife, cut lengthwise through the top of the lobster shell. Note: When cutting the shell, you will also be cutting through the meat, which is okay – this butterflies the meat for you and makes a very nice presentation. If you wish to remove the digestive tract (the dark line that runs along the length of the tail), this is a good time to do that as well. STEP 2 – Lay the tail on its side, cover it with a towel or napkin to protect your hands, and push down to crack open and loosen the shell. STEPS 3A&B – Separate the meat from the shell using your fingers. Starting at the flipper end, carefully move forward and loosen the meat from the sides and bottom of shell, but leave the meat attached at the flipper end. Rinse to remove any shell fragments. STEPS 4A&B – Lift meat through the cut shell opening and lay on top of shell. Voila – you did it! Place the tails in a baking pan and add ¼” water to the bottom of the pan. This adds moisture to the tails as it bakes. Fan out the tail fin shell to give the tail stabili
Thursday, March 8, 2018
Just finished my next feature, I swear I don't have a blue car fetish. Swing By the blog and check it out. Jared Roark and His Grit Tuning 1983 FB #fbrx7 #drift #rx7v8 #rx7fb #slidesociety #rx7 #custommade #hks #adjustablelca #biggerbrakes #wheelspacers #wheels #flushfit #stance #1stgenrx7 #cleanfbs #driftcar #japaneseiron #detroitsteel #hybrid #vhate #302ford #400hpclub #mazdarx7 #mazdarx7fb #doorcards #sr20det
Wednesday, March 7, 2018
Jared Roark's "True" Grit Tuning FC front subframe and IRS FB Mazda RX-7
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| Photo Credit Jared Roark |
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| Photo Credit Jared Roark |
Jared Roark's RX7 gets a lot of attention, as soon as most people see his body work, they have to know where he got his Aero. Well, that aero sprayed in Daytona blue pearl, is one off. Jared's talents has allow him to create a very unique and functional pieces. What you don't see at first, is all the work he has hiding under the skin of this FB RX7. He is one of the few guys that have a full FC Front and Rear subframe Swap. That's right full Independent suspension all the way around. The IRS is a huge undertaking and is why most people never finish it. But Jared followed thru to make this little track monster. Even motorwise he has opted to swap in a SR20DET. He was looking for a light and factory turbocharged engine that fit in his price range, almost going with a CA18DET, but chose the SR20DET, because of the huge aftermarket and info on it, although he still kind of wishes that he went with a CA18DET for the stronger valvetrain.
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| Photo Credit Jared Roark |
All of this done a shoestring fryboy budget.
That's right, he built this while working fast food for the 1st 10 years, something that is not an easy task. The Car has been a 15 year project, that he started with very little mechanical knowledge, when he was just 18. Jared's favorite part of the journey building this car is learning things like painting,bodywork, composites, welding and just fabricating things.
Dreams Of Time Attack
Taking inspiration from RE amemiya and MC towing time attack RX7 , he fabricated his; body kit, headlights, engine/trans mounts, Aluminum oil pan, intake, 3 inch exhaust, chassis to accept FC3S rear end, 4 point roll bar, fiberglass dash/center console and door cards. Setting his goals for competing in time attack and to be in a magazine feature someday. I'd say he has a pretty good shot with all the greatness this car has.
He is most proud of his FC3S RX7 rear swap, and he should be there are not many out there that can claim or have the dedication to have completed a full fc subframe swap.
Looking towards the future he would like to install a KAAZ LSD and finish making Custom rear quarter panels on the car.
Currently he is using the car to autocross, track days, drift, and hillclimb as much as he can. Seems the RX7 is a great all around performer.
Humility
My experience with Jared, he was very humble for a guy that had tenacious ambitions and great follow thru. He always was humble willing to learn more and get better in all aspects from fabrication to driving and tire selection. He is willing to learn and adapt , then apply that to his build or his driving. And I'm sure his build is like mine and many others it will never be truly finished, it just keeps evolving just like Jared. That is what is so great about loving your build, it becomes that wonderful extension of yourself. Remember if you're looking for a place to start modding you car check out our SA/FB Drift Tune Index
Best advice for new SA/FB racers:
"Get good tires(200 treadwear) and good brake pads (carbotech xp8 or Hawk HP plus) before any other upgrades. Get seatime! And more Seatime!"
Favorite Memory:
"My first track day at Oregon raceway park. Your first trackday is priceless."
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| Photo Credit Jared Roark |
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| Photo Credit Jared Roark |
1983 Mazda RX-7
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| Photo Credit Jared Roark |
Engine:
- Nissan SR20DET Redtop
- Garrett GT2560R turbocharger
- Polyurethane engine mounts
- RS-Enthalpy tuned ECU
- Z32 MAF
- Aeromotive FPR
- 550cc deatschwerks injectors,
- Greddy Type RS BOV
- Custom aluminum oil pan.
- Front mount intercooler
- Aluminum radiator
- Top Speed turbo outlet pipe
- 3" Turbo back exhaust with Borla XR-1 racing muffler
- 2 12 inch SPAL cooling fans
- 16 gal fuel cell
- Walbro 255 pump
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| Photo Credit Jared Roark |
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| Photo Credit Jared Roark |
Brakes:
- FC3S Turbo RX-7 4 piston calipers and rotors (front)
- FC3S RX-7 calipers and rotors (rear)
- Hawk HP plus pads (F/R)
Drivetrain:
- Spec stage 1 clutch
- Custom polyurethane transmission mounts
- Custom made driveshaft.
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| Photo Credit Jared Roark |
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| Photo Credit Jared Roark |
Footwork:
- FC3S RX7 front and rear crossmembers/suspension
- K sports coilovers
- polyurethane bushings
- FC3S Rack and pinion steering
- SuperNow Tie Rods
- Powered by Max Rack Spacers
- Rota wheels 15x8 0mm offset(F/R)
- 225/40/15 Hankook Ventus R-S3 tires on all four.
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| Photo Credit Jared Roark |
Interior:
- MOMO Racing seat
- G force and Takata harnesses
- Custom Made Grit Tuning fiberglass dash
- Custom Made Grit Tuning gauge cluster
- Custom Made Grit Tuning center console
- Custom Made Grit Tuning Door cards
- Apexi AVC-R boost controller
- Autometer ultralite gauges
- Custom made 4 point roll bar
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| Photo Credit Jared Roark |
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| Photo Credit Jared Roark |
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| Photo Credit Jared Roark |
Exterior:
- Wings west Whale tail spoiler
- Wings west side skirts
- Custom made fiberglass air dam
- Custom made front diffuser/splitter
- Custom made Grit Tuning Rear skirt
- Custom made Grit Tuning fenders and hood
- Custom made Grit Tuning Flush mount headlights
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| Photo Credit Jared Roark |
Safety
- Summit racing fuel cell
- Takata 4 point harness
- ABC fire extinguisher
- 4 point roll bar
- FIA approved Momo fiberglass racing seat.
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| Photo Credit Jared Roark |
Shameless Plugs
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| Photo Credit Jared Roark |
4 Link And Watts link DIY adjustable Links
First thing is first, i searched EVERYWHERE for this information, i thought that someone would have documented this and posted a pic, with all the years of this being out there, but no. So much thanks to Jesse Neese To Loaning me an spare set of 4 link and Watts link to measure out. I measured to the closest 1/16th of an inch, it won't matter much as the adjustable links will make up for any tolerances lost. I Started this project because I hate how much aftermarket suppliers charge to make these. They are one of the most simple things to make. Bearings and swage tubes. most of the suppliers are really proud of their gear, charging around $400 for a 4 link set. I figured it could be made for maybe half that cost.
Current work in progress...
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| All dimension in SAE Inches, except bolt sizes noted, dimensions are Center to Center for the factory holes |
Current work in progress...
Monday, March 5, 2018
Wheel Sizing
We know that for a 12a RX-7, the standard wheel size is 13 x 5.5 with offset of +25.
That data provides a starting point, but it doesn't tell exactly one how wide and how deep you can go without "major tire rubbage".
Originally Posted by mortenf on rx7 club
Well, since a lot of people have been asking about what fits and how lately, i thought i could make a thread about it. I would like others to contribute, so that in the end, we could have a sort of "wheelguide" for the first gen!
To start of in general with some FAQ`s.
Q: What wheels will fit my 1st gen?
Answer: due to the uncommon bolt pattern and high offset of the 1.st gen from 79-83, there isn`t a lot of new rims out there. There are however ways to get by this!
Q: Wait, wait, bolt pattern? Offset? Please explain!
Answer: OK, here we go. The RX7 is available with two bolt patterns. The early ones are the most uncommon ones, the late 84-85`s had a more common one. The pattern is 4*110 for the old ones, and 4*114,3 for the latest. So what do you have? Well here is a little picture of how to measure your bolt pattern with a ruler, measuring tape etc.
Measure the length between two opposite holes. The easiest is to do it on the rear axle. Its also easier if the wheel is off the car! The result in mm is your bolt circle. You should be able to measure eiter 110 or 114,3. Then count the number of bolts. There should be 4! If not, you are lacking a bolt or you have a transplant axle from another car! The first gen, as said, was only available with 4 bolts!
Right. You should now have measured your way to the mentioned numbers stated above. This is your bolt pattern.
Q: OK, i got the bolt pattern part, but im not sure of the offset?
Answer: You cant measure the offset without the desired rim. Normally this is inscripted in the rim itself, or any good wheel shop should know what offset the rim is. Here is a pic, hope you understand
See? Basically the offset is the distance from the mounting part of the rim to the imaginary center of the rim. The lower the offset, the longer out the wheel sticks. The early RX7`s require a low offset, especially with large wheels.
Q: Aha, i get it. But what size can i get?
Answer: The RX7 originally had 13`s, and at the end of production it went up to 14`s This said, there is no problem going bigger than this. 15`s are common and probably the easiest and the best comfort/performance option. On the oldest RX`s, 16`s will fit with minimal to no rubbing. The newer ones can with up to 17`s. Of course, this depends on what tire size you choose. A good rule of thumb is not to go more than 5% than the original rolling diameter. (the diameter of the rim/with tire)
Larger rims will also fit, there are people running 18`s on the old SA`s. This will require rolling of the fender lips, and/or modification of the inner/outer fender.
Generally, the bigger the tire, the lesser the comfort. Performance wice, for a road car, i would not recommend anybody going over 16`s. The profile of the tire also has a lot to say.
Q: Profile? 15`s? My tires have 205/60-13 on the side. What does this mean?
Answer: Easy one, but for those of you that dont know: 205 is the width of the tire in mm, hence 205 equals 20,5 centimeters (gotta love the metric system). 60 is the profile of the tire. This means that the height of the tire, measured from the rim out is 60 % of the width! 13 is the size of the rim itself (without tire) and 13 equals 13".
Q: Aha i get it. But now im having a hard time finding rims that fit!
Answer: well, as stated in the beginning, the selection is limited if you just search for 4*110. (The 4*114,3 is more common, no problem finding rims here) There are however some solutions. You can for example:
1. Do a suspension swap from a GLS-SE. Not only does this give you a more common pattern, but you also get rear disc brakes and LSD!
2. Redrill the rims. Some vendors offer this service, usually at a fair price.
3. Use 4*108 rims with "loose head" bolts. This requires the use of bolts that has loose heads that allows you to fit 4*108 (Ford etc.) on your 1.st gen. i myself has ran this option for 3 years now, no problems here. Just make sure the boltheads are steel and not copper. (Copper breaks)4. Import wheels from Japan or Australia. For example Simmons can deliver, but the price is hefty, plus shipping. not a cheap option, but you get what you pay for.
5. Ebay. Now and then there are wheels in the desired size on auction. Happy hunting!
That data provides a starting point, but it doesn't tell exactly one how wide and how deep you can go without "major tire rubbage".
Originally Posted by mortenf on rx7 club
Well, since a lot of people have been asking about what fits and how lately, i thought i could make a thread about it. I would like others to contribute, so that in the end, we could have a sort of "wheelguide" for the first gen!
To start of in general with some FAQ`s.
Q: What wheels will fit my 1st gen?
Answer: due to the uncommon bolt pattern and high offset of the 1.st gen from 79-83, there isn`t a lot of new rims out there. There are however ways to get by this!
Q: Wait, wait, bolt pattern? Offset? Please explain!
Answer: OK, here we go. The RX7 is available with two bolt patterns. The early ones are the most uncommon ones, the late 84-85`s had a more common one. The pattern is 4*110 for the old ones, and 4*114,3 for the latest. So what do you have? Well here is a little picture of how to measure your bolt pattern with a ruler, measuring tape etc.
Measure the length between two opposite holes. The easiest is to do it on the rear axle. Its also easier if the wheel is off the car! The result in mm is your bolt circle. You should be able to measure eiter 110 or 114,3. Then count the number of bolts. There should be 4! If not, you are lacking a bolt or you have a transplant axle from another car! The first gen, as said, was only available with 4 bolts!
Right. You should now have measured your way to the mentioned numbers stated above. This is your bolt pattern.
Q: OK, i got the bolt pattern part, but im not sure of the offset?
Answer: You cant measure the offset without the desired rim. Normally this is inscripted in the rim itself, or any good wheel shop should know what offset the rim is. Here is a pic, hope you understand
See? Basically the offset is the distance from the mounting part of the rim to the imaginary center of the rim. The lower the offset, the longer out the wheel sticks. The early RX7`s require a low offset, especially with large wheels.
Q: Aha, i get it. But what size can i get?
Answer: The RX7 originally had 13`s, and at the end of production it went up to 14`s This said, there is no problem going bigger than this. 15`s are common and probably the easiest and the best comfort/performance option. On the oldest RX`s, 16`s will fit with minimal to no rubbing. The newer ones can with up to 17`s. Of course, this depends on what tire size you choose. A good rule of thumb is not to go more than 5% than the original rolling diameter. (the diameter of the rim/with tire)
Larger rims will also fit, there are people running 18`s on the old SA`s. This will require rolling of the fender lips, and/or modification of the inner/outer fender.
Generally, the bigger the tire, the lesser the comfort. Performance wice, for a road car, i would not recommend anybody going over 16`s. The profile of the tire also has a lot to say.
Q: Profile? 15`s? My tires have 205/60-13 on the side. What does this mean?
Answer: Easy one, but for those of you that dont know: 205 is the width of the tire in mm, hence 205 equals 20,5 centimeters (gotta love the metric system). 60 is the profile of the tire. This means that the height of the tire, measured from the rim out is 60 % of the width! 13 is the size of the rim itself (without tire) and 13 equals 13".
Q: Aha i get it. But now im having a hard time finding rims that fit!
Answer: well, as stated in the beginning, the selection is limited if you just search for 4*110. (The 4*114,3 is more common, no problem finding rims here) There are however some solutions. You can for example:
1. Do a suspension swap from a GLS-SE. Not only does this give you a more common pattern, but you also get rear disc brakes and LSD!
2. Redrill the rims. Some vendors offer this service, usually at a fair price.
3. Use 4*108 rims with "loose head" bolts. This requires the use of bolts that has loose heads that allows you to fit 4*108 (Ford etc.) on your 1.st gen. i myself has ran this option for 3 years now, no problems here. Just make sure the boltheads are steel and not copper. (Copper breaks)4. Import wheels from Japan or Australia. For example Simmons can deliver, but the price is hefty, plus shipping. not a cheap option, but you get what you pay for.
5. Ebay. Now and then there are wheels in the desired size on auction. Happy hunting!
Well sent the sentra off to its new home
via Instagram http://ift.tt/2FfBBA0
Well sent the sentra off to its new home, sad to see it go, was a fun good commuter. Hopefully new owner loves it as much as I did. #sentra #se-r #specv #rallyx #rallylights#b15 #sentranation #sentranismo #rallycar #winterbeater #beatercarclub #beater #beaterwithaheater #instablog #instablogger
Well sent the sentra off to its new home, sad to see it go, was a fun good commuter. Hopefully new owner loves it as much as I did. #sentra #se-r #specv #rallyx #rallylights#b15 #sentranation #sentranismo #rallycar #winterbeater #beatercarclub #beater #beaterwithaheater #instablog #instablogger
Nikki Mechanical secondaries
Hope this pic helps explain it to you. I just link these two up with a paperclip, making very sure its fixed properly as it could cause some dramas if not done correctly.
you shouldn't need to disconnect anything else. However you can disconnect the vacuum diaphragm that used to actuate the secondaries, from memory I always did.
As far as wiring it up goes, just hard wire the right linkage to the left linkage... hard up against it and you'll be good to go.
If you want a more permanent solution, weld the joint together
this does create a lean stumble lean stumble when the mech secondaries are jammed open on a nikki, this mod will fix it.
Pretty much anyone can do this, all you need is a little strip of metal with some holes drilled in it and a nut and bolt. What it involves is extending the accelerator pump arm that links up with the throttle, to provide a richer mixture when the secondaries open up.
- background -
The accelerator pump (AP) squirts fuel down the primary barrels whenever you press the throttle. This aids acceleration by providing a richer mixture. Problem with the stock setup when combined with mech secondaries is that the AP will generally finish its shot BEFORE the secondaries are pulled open, so it's not squirting when the secondary barrels let more air in, causing a lean spot which you feel as a stutter or whatever. What you can do is extend the stroke of the pump to provide a shot that lasts longer but is a little weaker - with the same pump VOLUME, making the shot longer means the same amount of fuel over a longer time period which equals a slower rate. Acceleration will suffer slightly because the mixture wont be as rich, but it will be smoother and there won't be that stutter.
- how to do it -
Here's the AP (the rod with spring normally sits through that hole in the AP arm)
Opening the throttle by hand will show that the pump is pushed in early but finishes its shot before the throttle is fully open. That rod with a spring on it will just keep extending out but the pump isn't going anywhere. The idea is to extend the AP arm so that the pump doesn't finish its stroke until the secondaries are open.
First you need to remove that rod with a spring on it. Remove the adjustment nut from one end...
Image
...and the split pin and washers from the other end.
Now for the plate:
Note that the middle hole should be long like that for tuning purposes, and the single hole at the side is shaped out to assist that rod sliding through it more smoothly.
Then just bolt the plate onto the AP arm loosely, putting the bolt through the long hole and the rod with spring through the small hole. Install the split pin and washers as before. Put the adjustment nut back on the end of the rod and screw it all the way in as far as it goes.
- tuning -
There are two things to tune here. One is the position of the plate (that's what that longer hole is for), and the other is the position of the adjustment nut.
First the plate. Put the bolt through about half way, secure it slightly, then pull the throttle open by hand while looking down into the carb. There will be a point where fuel stops coming out of the AP nozzles, you want this to be when the secondaries are about 1/3 of the way open. Move the plate up or down until you find this spot.
Then the nut. If you cant see fuel coming out the AP nozzles basically as soon as the throttle is opened, loosen the nut out until it does. You may have to readjust the plate after this part but probably not. And that's it basically.
When driving it you'll probably notice that low down acceleration is a little weaker, but that stuttering when the secondaries are jammed open is pretty much gone - it WILL still be there if you flat foot it down low, but a slower throttle press should smooth it out anywhere other than idle takeoffs.
Credit goes to Sterling from RX7club.com for this mod, I just copied it and messed around with it a bit.
you shouldn't need to disconnect anything else. However you can disconnect the vacuum diaphragm that used to actuate the secondaries, from memory I always did.
As far as wiring it up goes, just hard wire the right linkage to the left linkage... hard up against it and you'll be good to go.
If you want a more permanent solution, weld the joint together
Pretty much anyone can do this, all you need is a little strip of metal with some holes drilled in it and a nut and bolt. What it involves is extending the accelerator pump arm that links up with the throttle, to provide a richer mixture when the secondaries open up.
- background -
The accelerator pump (AP) squirts fuel down the primary barrels whenever you press the throttle. This aids acceleration by providing a richer mixture. Problem with the stock setup when combined with mech secondaries is that the AP will generally finish its shot BEFORE the secondaries are pulled open, so it's not squirting when the secondary barrels let more air in, causing a lean spot which you feel as a stutter or whatever. What you can do is extend the stroke of the pump to provide a shot that lasts longer but is a little weaker - with the same pump VOLUME, making the shot longer means the same amount of fuel over a longer time period which equals a slower rate. Acceleration will suffer slightly because the mixture wont be as rich, but it will be smoother and there won't be that stutter.
- how to do it -
Here's the AP (the rod with spring normally sits through that hole in the AP arm)
Opening the throttle by hand will show that the pump is pushed in early but finishes its shot before the throttle is fully open. That rod with a spring on it will just keep extending out but the pump isn't going anywhere. The idea is to extend the AP arm so that the pump doesn't finish its stroke until the secondaries are open.
First you need to remove that rod with a spring on it. Remove the adjustment nut from one end...
Image
...and the split pin and washers from the other end.
Now for the plate:
Note that the middle hole should be long like that for tuning purposes, and the single hole at the side is shaped out to assist that rod sliding through it more smoothly.
Then just bolt the plate onto the AP arm loosely, putting the bolt through the long hole and the rod with spring through the small hole. Install the split pin and washers as before. Put the adjustment nut back on the end of the rod and screw it all the way in as far as it goes.
- tuning -
There are two things to tune here. One is the position of the plate (that's what that longer hole is for), and the other is the position of the adjustment nut.
First the plate. Put the bolt through about half way, secure it slightly, then pull the throttle open by hand while looking down into the carb. There will be a point where fuel stops coming out of the AP nozzles, you want this to be when the secondaries are about 1/3 of the way open. Move the plate up or down until you find this spot.
Then the nut. If you cant see fuel coming out the AP nozzles basically as soon as the throttle is opened, loosen the nut out until it does. You may have to readjust the plate after this part but probably not. And that's it basically.
When driving it you'll probably notice that low down acceleration is a little weaker, but that stuttering when the secondaries are jammed open is pretty much gone - it WILL still be there if you flat foot it down low, but a slower throttle press should smooth it out anywhere other than idle takeoffs.
Credit goes to Sterling from RX7club.com for this mod, I just copied it and messed around with it a bit.
Teeter Totter syndrome
Teeter Totter syndrome is where the shudder flap linkage has fallen off simple fix is to pop it back on.
this will be a noticeable loss in power without this on. A stock carb it will feel tons better.
this will be a noticeable loss in power without this on. A stock carb it will feel tons better.
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| what it looks like off |
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| how it should fit together |
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| proper linkage |
Mod Vacuum Secondaries (non mechanical)
Similar results to mechanical secondaries, but without having to worry about re-jetting to deal with that flat spot.
So you take the Secondary vacuum diaphragm, open it up, take the spring that's in it(its about 45mm long IIRC), Cut about 1/3 of the spring off, stretch it back to roughly 45mm to make the spring stiffer. **Make sure to flatten the cut end so it seats properly to avoid any damage to the diaphragm!** Put it all back together and take it for a drive.
You should notice that the secondaries activate sooner than before, and without the annoying flat spot, and it's a smooth transition just like stock.
Takes about 5 minutes to do, and there is a noticeable difference.
Here are some pics I stole from ausrotary.
Vacuum Diaphragm:
Original Post from Colbskee on Rx7 club
So you take the Secondary vacuum diaphragm, open it up, take the spring that's in it(its about 45mm long IIRC), Cut about 1/3 of the spring off, stretch it back to roughly 45mm to make the spring stiffer. **Make sure to flatten the cut end so it seats properly to avoid any damage to the diaphragm!** Put it all back together and take it for a drive.
You should notice that the secondaries activate sooner than before, and without the annoying flat spot, and it's a smooth transition just like stock.
Takes about 5 minutes to do, and there is a noticeable difference.
Here are some pics I stole from ausrotary.
Vacuum Diaphragm:
Original Post from Colbskee on Rx7 club
Modding the nikki
WHAT'S MORE FUN THAN TWO BARRELS OF MONKEYS?
...FOUR!
A carburetor needs adequate "air flow velocity" in order to have the fuel sucked out of the jets. If the venturis are too big, the carburetor will flow enough "volume" of air to feed the engine, but the "velocity" will be too slow to suck out the fuel through the jets. If they are too small, the velocity will allow enough fuel to be sucked into the carb, but there simply won't be enough air volume.
This is why oversized carbs disappoint people. There's no reason for the gapiing holes of a Holley 750 on a stock 12A rotary! It is also the reason why very small two barrel carbs will cause your rotary to have such a short powerband, yet a high peak horse power.
Because an engines requirements for air and fuel intake change with rpms, "one size venturi fits all rpms" does'nt really work to give us maximum performance. IDEALLY, (and someday I would like to try this, BTW!) there would be one venturi in a carburetor that acts like a cylindrical camera apperature that opens and closes in diameter with engine rpm....Not very practical.
Solution? Make more than one venturi in the carb, each with its own fuel jet from which the flow of air through the venturis can suck out. Each ventury has a fuel jet that is perfectly matched for its size to ensure that a rich mixture can be had with maximum air flow. (It's easy to regulate the fuel flow down from too rich). As one set of venturis begins to max out their air flow, another set begins to open.
In this mannor, effective velocity can be had over a greater range, ensuring a wider powerband. This makes your car "streetable".
The carburetor with 4 venturis is very much a design of "practicality". It allows the engine to breathe the perfect mixture over a wider range of rpms. If you take a good two barrel carburetor, and mate it to a rotary, there will be an RPM band up high where the engine is running with the maximum air flow, and perfect air/fuel ratio. But as you decrease rpms, the flow characteristics of that carb will not allow for the "perfect" conditions conducive to power output.
With a 4 barrel carb, you can have two points at which these conditions are met perfectly. When you have changeable jets and airbleeds, and therefore total tunability over the whole rpm range, you can make the transitions between those "perfect ratio spots" very subtle, so that the engine feels powerful all through the
power band. There are people who spend alot of time making four barrel carbs almost linear in their power band throughout as wide a power band as they can. Often there is a trade off, which is a bit of absolute high end power sacraficed for low end power.
Again...streetability.
The question remains often as a debate; but will ultimately be in the car owners hands as to which he needs most; An engine with a high peak horse power, but a narrow powerband, or an engine that has slightly less peak horse power, yet has a wide band.
Do you need a race car, or a street car?
People such as Paul Yaw, folks at Mazdatrix and Racing Beat, Pineapple racing, and many others have come close to obtaining both high end power usually associated with the Webers and Dellortos, and the wide power bands found in four barrels... in a four barrel application. But as yet in the world of carbs, there have always been, and probably always will be compromises.
Learn all you can.
Supidity is stupidity.
Not learning because you did'nt try is ignorance.
Niether is ever fast.
WHEN THE SECONDARIES OPEN...
Typically on a 4 barrel, the small "primary" venturis are opened for starting the car off, and cruising; just general driving. When it's time to pass someone, climb a hill, or just plain drive like a lunatic, the "secondary" venturis begin to open because the primary venturis have "maxed out" their airflow capabilities, AND/OR the corresponding "primary fuel jets" have maxed out their flow abilities, as well. Because the engine's still hungery, it's time to open up two more cans of beans. The same process starts for the secondaries.
A SMOOTH TRANSITION...
Ideally, we need the secondaries to "read" engine needs and cross reference that data with input data from the primaries. (Ahhh...screw it! Just get a fulie! KIDDING- I'm KIDDING!) Mechanical secondaries operate by having the secondary shaft linked to the primary shaft in such a mannor, that when the primaries are a certain
predetermined amount open, like about one third to half way, the secondary shaft will begin to open. As the primaries are slowly opened all the way, the secondaries are opening a bit faster than the primaries so that they are all finished with their stroke, and all four butterfly valves are straight up and down at the same time, allowing maximum flow.
In order to accomplish that, the linkage is hooked from an arm on the primary shaft to an arm on the secondary shaft; the linkage being a simple piece of heavy wire; the "arms" being more like cam shaped washers. But the length of the secondary arm is shorter than the length of the primary arm; and this is how the secondaries are able to finish their travel to WOT by the time the primaries do, even though they started to open
later than the primaries. For illustrative purposes, these cam shaped washers with different lobe lengths, and therefore different radii, can be thought of as a set of gears. The smaller diameter gear will turn more than the larger.
HOW THEY OPEN...
The stock Nikki carb is vacuum operated, but has its linkage set up in a mannor that is conducive to swapping to mechanical operation. The throttle shafts are honed flat on each side so that parts of the linkage can move the shaft, while other parts of the linkage can spin freely. There is a washer that can only move with the shaft on the primary shaft. It has a radial slot in the edge. There's another one right beside it, that can move freely, and has a tab that fits into the slot. This washer also has a small hole for one end of the linkage. There are two washers on the secondary shaft; One of these can move freely, while the other can only move with the shaft. These washers have tabs on them, as well. A heavy piece of wire links the primary shaft washer to the free-moving washer on the secondary shaft.
The throttle return spring holds the primaries closed. A spring is wrapped around the secondary shaft housing and hooked to the free spinning washer on the secondary shaft. The tab on that washer makes contact with the tab on the stationary washer, and so holds the shaft in the closed position. As the primaries are opened, the tab on the primary shaft attached washer slides along the radial slot in the free moving washer, untill it makes contact. Then, the primary shaft free moving washer, on which the wire linkage is attached, begins to move. This pulls on the spring loaded, free spinning washer on the secondary shaft, allowing the shaft to open.
But the shaft stays held closed!...By another funny business going on at the other end. And all this complexity is designed so that there is a certain amount of "free-play" in the primaries. That way, the secondaries are only allowed to begin opening when the primaries are already partially opened.
READING THIS SUCKS LESS THAN YOUR VACUUM SECONDARY ADVANCE BOX!...
There is an orifice in the front primary ventury that leads to a circuit that ends up at the box on the secondary side of the carb. In this box is a diaphragm that is hooked to a linkage that moves the secondary shaft. The diaphragm is spring loaded, and when there's enough vacuum present to overcome the spring tension, it sucks the diaphragm in which then pulls the shaft open.
The vaccum required to overcome the spring tension is substantial. Many people, including myself at one point, cut the spring in an effort to decrease the amount of vacuum necessary to prompt the secondaries to open. Removing the spring from the box alltogether basically renders it useless. The secondaries may then open with the slightest amount of decent vacuum present in the front primary venturi. The result could be similar to a large two barrel carburetor for some, while it will work great for others. There are variables associated with spring removal, including the condition of the diaphragm in the box. If is as old as the car, it may be no longer be as suple as it once was, and therefore you may need more vacuum than someone else.
Disconnecting the linkage from the box itself allows the secondaries to "free-float" when the primaries are moved far enough to remove the linked secondary shaft retaining spring tension. The secondaries are basically at the mercy of flow as a means to prompt them to open. A bit like having a small weather vane in your carb. This is why there are many varied results in doing this simple mod. A carburetor that is all gummed up will surely hold the secondaries shut where a cleaner carb is more apt to have the secondaries move. But they will not be timed, as they are not linked, and so will never open optimally, fully, or even consistantly.
Vacuum secondary operation is a great set-up for two reasons...Fuel economy, and a very, very smooth transition from primary operation to secondary. Often with mechanical secondaries, the transition is very noticable as a 'thrust' of power. This responce that one feels is often misinterpretted as power, when in reality it is the lack of fuel for a split second while the secondaries open. Forward inertia keeps the vehical moving, so the loss of power is only percieved when the power comes on. All this happens very quickly, and if there was a perfectly smooth transition, you would'nt feel the jerk of the vehical, but you would be ever-so-slightly faster. (we'll get to that.)
The fact that vacuum secondaries operate when your ENGINE says so is enough for most performance minded people to desire mechanical secondaries that they themselves control with their own foot. And converting the stock Nikki secondaries is very easy to do...IF you understand how they work to begin with.
CONVERTING TO...MECHANISISM?!?
You need to disconnect the throttle cable and choke cable before anything.
Now, yank off that vacuum box, along with the linkage. Well....don't "yank" it off, but remove it as if you were doing surgery on your dog. (You love your dog, don't you?) Don't destroy, or change anything that can't be put back the way it was. There are 3 holes on the carb where you took the box off; two for screws, and one where a short black plastic tube from the box went into. That hole is the vacuum hole, and should be plugged with perhaps a piece of rubber or plastic that you can remove later if you want to put everything back the way it was.
Study how the linkage moves on the "business" side of the carb. You'll need a wire twisty from a garbage bag. Remove the sheathing. This is what you'll use to wire the linkage together.
Now that the vacuum box is gone, there is nothing keeping the secondary shaft from moving when the primary shaft opens to the point where its linkage 'allows' it to. There's nothing prompting it to move, though, either. So you need to wire the two washers on the secondary shaft together, so that
the one with the linkage arm in it will pull the other one along with it.
DANCING BUTTERFLIES...TIMING IS EVERYTHING!
Ultimately, we want to end up with the primary and the secondary butterflies standing straight up and down together. This is truely "wide open throttle", and it's suprising to think that your carb may not be opening all the way up. Many people don't ever think to check, but after 16-20 years that ole throttle cable could've stretched a bit, and gone unnoticed.
When all of the linkage is just right, the secondaries will start to open somewhere between the 1/3rd to half-way point of the primaries' travel; and both shafts will finish their travel at exactly the point where all four butterflies are perfectly straight up and down.
Don't get cocky! There is a hidden danger here...If the linkage is not adjusted quite right, either on the wire that you put on, or the original link wire, a result could be that the secondaries don't actually close all
the way. This is no good, and will thoroughly screw up your idle. Check for any binding, and adjust your wire, as well as the original linkage wire (by bending or straightening it with pliers) as neccesary; And always double check that everything is timed properly.
Now you need an assistant to help with the throttle cable. Put the throttle and choke cable back on, and keep the nuts very loose. Have your assistant put the pedal all the way down, and you hand-operate the carb to wide open throttle. Snug up the cable, so it's roughly in the correct position. Have your assistant push the pedal down, and you can fine-tune the adjustment on the cable so that "wide open throttle" on the pedal really means "wide open throttle"! Be certain, of course that the cable is'nt keeping the throttle open during idle.
If there is that problem, then you'll have to do some pedal stop adjusting; but take serious caution not to spin the carb shaft too far, or irrepairable damage will be done to the components. (And, BTW, this is a real PITA if you have to do it! Just take your time, and get it right.)
Now drive it.
...So you drove it. It probably feels real powerful when you slam the pedal, say after 4500 RPMs. Anything under that, and you get a "bog", or "flat spot".
This flat spot is your engine gasping for fuel as the air velocity is suddenly interrupted by a "pie-in-the-face" rush of volume. For that fraction of a second, the engine does'nt have enough fuel, and is
running very lean, and with very little power. If we could maybe throw a surge of fuel in there, it would'nt suffer such a shock!
"I NEED A SHOT O' GASOLINE..."
The AP (because I'm tired of typing "accelerator pump"!) is a simple "squirt-gun" design pump in that it uses a check ball at the intake, and one at the outlet (under the nozzles). The operative part of it is linked to the "linkage headache" of the carb, and is designed to squirt a shot of fuel into the primary venturis upon their opening. If there were no AP, then the venturi butterfly valves would always have to opened very slowly to prevent stalling.
The stock Nikki AP set-up is fine for an economy sports car, and with the original vacuum operated secondaries, ...well, they opened so slowly, and infrequently, that there was no real need for an AP specifically designed
for them. But now that we've converted to mechanical secondary operation, we DO need an extra push when they open, because they will be opening every time you stomp the pedal!
Work the throttle shaft on your carb, and observe the squirt of fuel coming from the AP nozzles into the primaries. Observe, in particular, the duration of the pump shot with respect to the position of the butterflies and you will see, that if you were to be cruising down the highway with your pedal partially down, and then step on the gas pedal, there would be no pump shot...unless, of course you let completely off the pedal, and THEN stomp it again. That way, the linkage could travel back to closed position, and give
you a shot again on the way back to WOT. THAT does'nt sound like very much fun!
So - What we need to do is change the AP linkage to increase the DURATION of the shot so it will still squirt while the secondaries are opening. But then there's another lil' problem...There's simply not enough fuel to spread out over that long a stroke, and still be effective. So we need to increase the VOLUME, too.
We've fiddled with linkage crap enough for a while, so let's increase the volume of the AP first. For this, you'll need:
Carb gasket paper,
An exacto knife, (and I find that a hand held paper hole-puncher works
really well for screw holes, ect)
4 screws the are IDENTICAL thread pitch to the four AP housing cover screws,
but about 1/8th inch longer,
a strip of strong metal 1 1/2 inch X 1/2 inch X "whatever" (depending on the
material. I used a piece of 1/8 aluminum, but 1/16th steel would do it. It
needs to be strong, but drillable and cutable.)
a very small nut and bolt that will join this metal strip to the existing AP
lever,
...And a veriety of tools, including a file and a drill.
Remove the AP housing cover, and you'll find a diaphragm and a spring. If your diaphragm is a tough as an old shoe, get a new one. You need one that is soft and supple because you're going to "max-out" its movement to and
fro.
Take the housing cover and the gasket paper, and cut out 6 gaskets. Use a quarter, and trace out circles exactly in the center of each, and cut them out. Reassemble the AP using the four new screws, and putting 3 gaskets in front of the diaphragm, and three after. Pull that spring a bit so it's
about a quarter inch longer, too. That's it.
Now it does'nt seem like an awful lot, but it really makes a difference. The AP diaphragm can now pull more fuel in, and push more fuel out.
Now the linkage...
The original linkage is hooked up in a mannor in which the arc of the lever is so short, that it takes little shaft movement to complete that arc. What we want, is for that arc to be longer. Take the nut off the AP linkage arm, if you have'nt already. Take the strip of metal, and drill a hole at each end, so that the holes are about 1-1/14 apart. The holes need to be the same diameter as the one in the AP lever. Bolt the extention to the AP lever, and you'll see that the bottom will need to be bent slightly so that it is more perpendicular to the AP linkage arm.
Don't forget that spring on the linkage arm! Make sure there's good tention on the spring when it's all assembled by stretching the spring a bit. You may have to use washers as spacers on the AP linkage arm so that you can attach the nut, and still adjust it; Or, you can creatively bend or remake abetter extention.
But that's it!
Observe the pump shot, now. You should see that even if you stop operating the throttle midway, that when you continue moving it again, there is still fuel squirting from the nozzles as the secondaries are opening.
Accelerator pump tuning is not an art; but rather a purely "trial and error" proceedure. The key to being able to tune the pump is to make certain that the extention you put on is still in the threaded part of the AP tuninglinkage arm. Tuning should be done with 1/4 turns, and not in the driveway. The engine has much different requirements when it's trying to haul around a heavy car and your butt!
Also, more is not always better, and so it is entirely possible to end up with too much of an AP shot, with the results feeling exactly the same as not having enough. If you have too little, the is a lean flat spot. Too much obviously equals a rich flat spot. Your butt can't tell the difference, and that's why I say it's "trial and error". But with this set-up, you should be able to find a "happy place" where at over about 3000 rpms, you can nail it, and get no bog. It will take some doing, and this may even promp you to start experimenting with different fuel jets, ect.
You will still have a stumble if you try to nail it at under 3000; 2800 at best. If you drive like Grandma all the time, and suddenly want to nail it at 2500, well...get a supercharger!
Side note.........
There are two orifices in the front fuel bowl associated with the AP. I do not yet fully understand the set-up, but being of curious nature, I presumed that the top one was for AP over-pressure. I plugged that top hole by inserting a brass plug from the inside. I made the plug on my lathe, and I don't suggest anyone doing it by MY word, as I still don't know what it does (did).
The reason I mention this, is because I had to remove the airhorn and take out the brass threaded jet that covers the AP checkball, and put teflon tape on it, as I was losing fuel from that area. However, due to the fact that only one other person has tried this mod (that I know of...And he DID do the same thing, even though I said he should'nt, and had the same thing happen.), I don't know if the leakage was because of
the original mod causing extra pressure in the AP, or due to plugging that hole in the fuel bowl.
So, in short, you MAY have to remove the air horn to access that brass jet, and tape it up.
Please also keep in mind, that I have done this mod to an "already modified" carburetor. I use huge jets, and my carb flows about 1/3rd again what it did when it was stock. I've machined my own linkage set-up, and it's completly different than stock, so what I've just written is from memory.
I really hope this works as well for your stock carb, as it does for my carb. If you are not getting great results from this, my suggestion is to remove a pair of gaskets; one from each side of the "AP diaphragm sandwich", thereby decreasing the amount of fuel. But I have a feeling, it will be fine.
Feel free to Email me at dennisandmissy@mindspring.com with questions, and I would very much appreciate
feedback about results, too.
Dennis Williams, aka "Sterling".
P.S.
This is a compilation of information I've extracted from experimentation, The Mazspeed website, This site, Paul Yaws site, and several "rotary-wierdos"; including Speedturn, REVHED, peejay, Mikey D, and a guy named Steve.
I take full responsibility for any "Well hell...that-ain't-right!"s found in this write-up.
I only mention the above names to give credit where credit is due.
Original post from RX7club Member Sterling
...FOUR!
A carburetor needs adequate "air flow velocity" in order to have the fuel sucked out of the jets. If the venturis are too big, the carburetor will flow enough "volume" of air to feed the engine, but the "velocity" will be too slow to suck out the fuel through the jets. If they are too small, the velocity will allow enough fuel to be sucked into the carb, but there simply won't be enough air volume.
This is why oversized carbs disappoint people. There's no reason for the gapiing holes of a Holley 750 on a stock 12A rotary! It is also the reason why very small two barrel carbs will cause your rotary to have such a short powerband, yet a high peak horse power.
Because an engines requirements for air and fuel intake change with rpms, "one size venturi fits all rpms" does'nt really work to give us maximum performance. IDEALLY, (and someday I would like to try this, BTW!) there would be one venturi in a carburetor that acts like a cylindrical camera apperature that opens and closes in diameter with engine rpm....Not very practical.
Solution? Make more than one venturi in the carb, each with its own fuel jet from which the flow of air through the venturis can suck out. Each ventury has a fuel jet that is perfectly matched for its size to ensure that a rich mixture can be had with maximum air flow. (It's easy to regulate the fuel flow down from too rich). As one set of venturis begins to max out their air flow, another set begins to open.
In this mannor, effective velocity can be had over a greater range, ensuring a wider powerband. This makes your car "streetable".
The carburetor with 4 venturis is very much a design of "practicality". It allows the engine to breathe the perfect mixture over a wider range of rpms. If you take a good two barrel carburetor, and mate it to a rotary, there will be an RPM band up high where the engine is running with the maximum air flow, and perfect air/fuel ratio. But as you decrease rpms, the flow characteristics of that carb will not allow for the "perfect" conditions conducive to power output.
With a 4 barrel carb, you can have two points at which these conditions are met perfectly. When you have changeable jets and airbleeds, and therefore total tunability over the whole rpm range, you can make the transitions between those "perfect ratio spots" very subtle, so that the engine feels powerful all through the
power band. There are people who spend alot of time making four barrel carbs almost linear in their power band throughout as wide a power band as they can. Often there is a trade off, which is a bit of absolute high end power sacraficed for low end power.
Again...streetability.
The question remains often as a debate; but will ultimately be in the car owners hands as to which he needs most; An engine with a high peak horse power, but a narrow powerband, or an engine that has slightly less peak horse power, yet has a wide band.
Do you need a race car, or a street car?
People such as Paul Yaw, folks at Mazdatrix and Racing Beat, Pineapple racing, and many others have come close to obtaining both high end power usually associated with the Webers and Dellortos, and the wide power bands found in four barrels... in a four barrel application. But as yet in the world of carbs, there have always been, and probably always will be compromises.
Learn all you can.
Supidity is stupidity.
Not learning because you did'nt try is ignorance.
Niether is ever fast.
WHEN THE SECONDARIES OPEN...
Typically on a 4 barrel, the small "primary" venturis are opened for starting the car off, and cruising; just general driving. When it's time to pass someone, climb a hill, or just plain drive like a lunatic, the "secondary" venturis begin to open because the primary venturis have "maxed out" their airflow capabilities, AND/OR the corresponding "primary fuel jets" have maxed out their flow abilities, as well. Because the engine's still hungery, it's time to open up two more cans of beans. The same process starts for the secondaries.
A SMOOTH TRANSITION...
Ideally, we need the secondaries to "read" engine needs and cross reference that data with input data from the primaries. (Ahhh...screw it! Just get a fulie! KIDDING- I'm KIDDING!) Mechanical secondaries operate by having the secondary shaft linked to the primary shaft in such a mannor, that when the primaries are a certain
predetermined amount open, like about one third to half way, the secondary shaft will begin to open. As the primaries are slowly opened all the way, the secondaries are opening a bit faster than the primaries so that they are all finished with their stroke, and all four butterfly valves are straight up and down at the same time, allowing maximum flow.
In order to accomplish that, the linkage is hooked from an arm on the primary shaft to an arm on the secondary shaft; the linkage being a simple piece of heavy wire; the "arms" being more like cam shaped washers. But the length of the secondary arm is shorter than the length of the primary arm; and this is how the secondaries are able to finish their travel to WOT by the time the primaries do, even though they started to open
later than the primaries. For illustrative purposes, these cam shaped washers with different lobe lengths, and therefore different radii, can be thought of as a set of gears. The smaller diameter gear will turn more than the larger.
HOW THEY OPEN...
The stock Nikki carb is vacuum operated, but has its linkage set up in a mannor that is conducive to swapping to mechanical operation. The throttle shafts are honed flat on each side so that parts of the linkage can move the shaft, while other parts of the linkage can spin freely. There is a washer that can only move with the shaft on the primary shaft. It has a radial slot in the edge. There's another one right beside it, that can move freely, and has a tab that fits into the slot. This washer also has a small hole for one end of the linkage. There are two washers on the secondary shaft; One of these can move freely, while the other can only move with the shaft. These washers have tabs on them, as well. A heavy piece of wire links the primary shaft washer to the free-moving washer on the secondary shaft.
The throttle return spring holds the primaries closed. A spring is wrapped around the secondary shaft housing and hooked to the free spinning washer on the secondary shaft. The tab on that washer makes contact with the tab on the stationary washer, and so holds the shaft in the closed position. As the primaries are opened, the tab on the primary shaft attached washer slides along the radial slot in the free moving washer, untill it makes contact. Then, the primary shaft free moving washer, on which the wire linkage is attached, begins to move. This pulls on the spring loaded, free spinning washer on the secondary shaft, allowing the shaft to open.
But the shaft stays held closed!...By another funny business going on at the other end. And all this complexity is designed so that there is a certain amount of "free-play" in the primaries. That way, the secondaries are only allowed to begin opening when the primaries are already partially opened.
READING THIS SUCKS LESS THAN YOUR VACUUM SECONDARY ADVANCE BOX!...
There is an orifice in the front primary ventury that leads to a circuit that ends up at the box on the secondary side of the carb. In this box is a diaphragm that is hooked to a linkage that moves the secondary shaft. The diaphragm is spring loaded, and when there's enough vacuum present to overcome the spring tension, it sucks the diaphragm in which then pulls the shaft open.
The vaccum required to overcome the spring tension is substantial. Many people, including myself at one point, cut the spring in an effort to decrease the amount of vacuum necessary to prompt the secondaries to open. Removing the spring from the box alltogether basically renders it useless. The secondaries may then open with the slightest amount of decent vacuum present in the front primary venturi. The result could be similar to a large two barrel carburetor for some, while it will work great for others. There are variables associated with spring removal, including the condition of the diaphragm in the box. If is as old as the car, it may be no longer be as suple as it once was, and therefore you may need more vacuum than someone else.
Disconnecting the linkage from the box itself allows the secondaries to "free-float" when the primaries are moved far enough to remove the linked secondary shaft retaining spring tension. The secondaries are basically at the mercy of flow as a means to prompt them to open. A bit like having a small weather vane in your carb. This is why there are many varied results in doing this simple mod. A carburetor that is all gummed up will surely hold the secondaries shut where a cleaner carb is more apt to have the secondaries move. But they will not be timed, as they are not linked, and so will never open optimally, fully, or even consistantly.
Vacuum secondary operation is a great set-up for two reasons...Fuel economy, and a very, very smooth transition from primary operation to secondary. Often with mechanical secondaries, the transition is very noticable as a 'thrust' of power. This responce that one feels is often misinterpretted as power, when in reality it is the lack of fuel for a split second while the secondaries open. Forward inertia keeps the vehical moving, so the loss of power is only percieved when the power comes on. All this happens very quickly, and if there was a perfectly smooth transition, you would'nt feel the jerk of the vehical, but you would be ever-so-slightly faster. (we'll get to that.)
The fact that vacuum secondaries operate when your ENGINE says so is enough for most performance minded people to desire mechanical secondaries that they themselves control with their own foot. And converting the stock Nikki secondaries is very easy to do...IF you understand how they work to begin with.
CONVERTING TO...MECHANISISM?!?
You need to disconnect the throttle cable and choke cable before anything.
Now, yank off that vacuum box, along with the linkage. Well....don't "yank" it off, but remove it as if you were doing surgery on your dog. (You love your dog, don't you?) Don't destroy, or change anything that can't be put back the way it was. There are 3 holes on the carb where you took the box off; two for screws, and one where a short black plastic tube from the box went into. That hole is the vacuum hole, and should be plugged with perhaps a piece of rubber or plastic that you can remove later if you want to put everything back the way it was.
Study how the linkage moves on the "business" side of the carb. You'll need a wire twisty from a garbage bag. Remove the sheathing. This is what you'll use to wire the linkage together.
Now that the vacuum box is gone, there is nothing keeping the secondary shaft from moving when the primary shaft opens to the point where its linkage 'allows' it to. There's nothing prompting it to move, though, either. So you need to wire the two washers on the secondary shaft together, so that
the one with the linkage arm in it will pull the other one along with it.
DANCING BUTTERFLIES...TIMING IS EVERYTHING!
Ultimately, we want to end up with the primary and the secondary butterflies standing straight up and down together. This is truely "wide open throttle", and it's suprising to think that your carb may not be opening all the way up. Many people don't ever think to check, but after 16-20 years that ole throttle cable could've stretched a bit, and gone unnoticed.
When all of the linkage is just right, the secondaries will start to open somewhere between the 1/3rd to half-way point of the primaries' travel; and both shafts will finish their travel at exactly the point where all four butterflies are perfectly straight up and down.
Don't get cocky! There is a hidden danger here...If the linkage is not adjusted quite right, either on the wire that you put on, or the original link wire, a result could be that the secondaries don't actually close all
the way. This is no good, and will thoroughly screw up your idle. Check for any binding, and adjust your wire, as well as the original linkage wire (by bending or straightening it with pliers) as neccesary; And always double check that everything is timed properly.
Now you need an assistant to help with the throttle cable. Put the throttle and choke cable back on, and keep the nuts very loose. Have your assistant put the pedal all the way down, and you hand-operate the carb to wide open throttle. Snug up the cable, so it's roughly in the correct position. Have your assistant push the pedal down, and you can fine-tune the adjustment on the cable so that "wide open throttle" on the pedal really means "wide open throttle"! Be certain, of course that the cable is'nt keeping the throttle open during idle.
If there is that problem, then you'll have to do some pedal stop adjusting; but take serious caution not to spin the carb shaft too far, or irrepairable damage will be done to the components. (And, BTW, this is a real PITA if you have to do it! Just take your time, and get it right.)
Now drive it.
...So you drove it. It probably feels real powerful when you slam the pedal, say after 4500 RPMs. Anything under that, and you get a "bog", or "flat spot".
This flat spot is your engine gasping for fuel as the air velocity is suddenly interrupted by a "pie-in-the-face" rush of volume. For that fraction of a second, the engine does'nt have enough fuel, and is
running very lean, and with very little power. If we could maybe throw a surge of fuel in there, it would'nt suffer such a shock!
"I NEED A SHOT O' GASOLINE..."
The AP (because I'm tired of typing "accelerator pump"!) is a simple "squirt-gun" design pump in that it uses a check ball at the intake, and one at the outlet (under the nozzles). The operative part of it is linked to the "linkage headache" of the carb, and is designed to squirt a shot of fuel into the primary venturis upon their opening. If there were no AP, then the venturi butterfly valves would always have to opened very slowly to prevent stalling.
The stock Nikki AP set-up is fine for an economy sports car, and with the original vacuum operated secondaries, ...well, they opened so slowly, and infrequently, that there was no real need for an AP specifically designed
for them. But now that we've converted to mechanical secondary operation, we DO need an extra push when they open, because they will be opening every time you stomp the pedal!
Work the throttle shaft on your carb, and observe the squirt of fuel coming from the AP nozzles into the primaries. Observe, in particular, the duration of the pump shot with respect to the position of the butterflies and you will see, that if you were to be cruising down the highway with your pedal partially down, and then step on the gas pedal, there would be no pump shot...unless, of course you let completely off the pedal, and THEN stomp it again. That way, the linkage could travel back to closed position, and give
you a shot again on the way back to WOT. THAT does'nt sound like very much fun!
So - What we need to do is change the AP linkage to increase the DURATION of the shot so it will still squirt while the secondaries are opening. But then there's another lil' problem...There's simply not enough fuel to spread out over that long a stroke, and still be effective. So we need to increase the VOLUME, too.
We've fiddled with linkage crap enough for a while, so let's increase the volume of the AP first. For this, you'll need:
Carb gasket paper,
An exacto knife, (and I find that a hand held paper hole-puncher works
really well for screw holes, ect)
4 screws the are IDENTICAL thread pitch to the four AP housing cover screws,
but about 1/8th inch longer,
a strip of strong metal 1 1/2 inch X 1/2 inch X "whatever" (depending on the
material. I used a piece of 1/8 aluminum, but 1/16th steel would do it. It
needs to be strong, but drillable and cutable.)
a very small nut and bolt that will join this metal strip to the existing AP
lever,
...And a veriety of tools, including a file and a drill.
Remove the AP housing cover, and you'll find a diaphragm and a spring. If your diaphragm is a tough as an old shoe, get a new one. You need one that is soft and supple because you're going to "max-out" its movement to and
fro.
Take the housing cover and the gasket paper, and cut out 6 gaskets. Use a quarter, and trace out circles exactly in the center of each, and cut them out. Reassemble the AP using the four new screws, and putting 3 gaskets in front of the diaphragm, and three after. Pull that spring a bit so it's
about a quarter inch longer, too. That's it.
Now it does'nt seem like an awful lot, but it really makes a difference. The AP diaphragm can now pull more fuel in, and push more fuel out.
Now the linkage...
The original linkage is hooked up in a mannor in which the arc of the lever is so short, that it takes little shaft movement to complete that arc. What we want, is for that arc to be longer. Take the nut off the AP linkage arm, if you have'nt already. Take the strip of metal, and drill a hole at each end, so that the holes are about 1-1/14 apart. The holes need to be the same diameter as the one in the AP lever. Bolt the extention to the AP lever, and you'll see that the bottom will need to be bent slightly so that it is more perpendicular to the AP linkage arm.
Don't forget that spring on the linkage arm! Make sure there's good tention on the spring when it's all assembled by stretching the spring a bit. You may have to use washers as spacers on the AP linkage arm so that you can attach the nut, and still adjust it; Or, you can creatively bend or remake abetter extention.
But that's it!
Observe the pump shot, now. You should see that even if you stop operating the throttle midway, that when you continue moving it again, there is still fuel squirting from the nozzles as the secondaries are opening.
Accelerator pump tuning is not an art; but rather a purely "trial and error" proceedure. The key to being able to tune the pump is to make certain that the extention you put on is still in the threaded part of the AP tuninglinkage arm. Tuning should be done with 1/4 turns, and not in the driveway. The engine has much different requirements when it's trying to haul around a heavy car and your butt!
Also, more is not always better, and so it is entirely possible to end up with too much of an AP shot, with the results feeling exactly the same as not having enough. If you have too little, the is a lean flat spot. Too much obviously equals a rich flat spot. Your butt can't tell the difference, and that's why I say it's "trial and error". But with this set-up, you should be able to find a "happy place" where at over about 3000 rpms, you can nail it, and get no bog. It will take some doing, and this may even promp you to start experimenting with different fuel jets, ect.
You will still have a stumble if you try to nail it at under 3000; 2800 at best. If you drive like Grandma all the time, and suddenly want to nail it at 2500, well...get a supercharger!
Side note.........
There are two orifices in the front fuel bowl associated with the AP. I do not yet fully understand the set-up, but being of curious nature, I presumed that the top one was for AP over-pressure. I plugged that top hole by inserting a brass plug from the inside. I made the plug on my lathe, and I don't suggest anyone doing it by MY word, as I still don't know what it does (did).
The reason I mention this, is because I had to remove the airhorn and take out the brass threaded jet that covers the AP checkball, and put teflon tape on it, as I was losing fuel from that area. However, due to the fact that only one other person has tried this mod (that I know of...And he DID do the same thing, even though I said he should'nt, and had the same thing happen.), I don't know if the leakage was because of
the original mod causing extra pressure in the AP, or due to plugging that hole in the fuel bowl.
So, in short, you MAY have to remove the air horn to access that brass jet, and tape it up.
Please also keep in mind, that I have done this mod to an "already modified" carburetor. I use huge jets, and my carb flows about 1/3rd again what it did when it was stock. I've machined my own linkage set-up, and it's completly different than stock, so what I've just written is from memory.
I really hope this works as well for your stock carb, as it does for my carb. If you are not getting great results from this, my suggestion is to remove a pair of gaskets; one from each side of the "AP diaphragm sandwich", thereby decreasing the amount of fuel. But I have a feeling, it will be fine.
Feel free to Email me at dennisandmissy@mindspring.com with questions, and I would very much appreciate
feedback about results, too.
Dennis Williams, aka "Sterling".
P.S.
This is a compilation of information I've extracted from experimentation, The Mazspeed website, This site, Paul Yaws site, and several "rotary-wierdos"; including Speedturn, REVHED, peejay, Mikey D, and a guy named Steve.
I take full responsibility for any "Well hell...that-ain't-right!"s found in this write-up.
I only mention the above names to give credit where credit is due.
Original post from RX7club Member Sterling
FB TII SWAP
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Rear Wheel Bearing Installation SA and FB Mazda RX-7
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Use Any Shift Rod in TII Swap Transmission in an FB
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Wiring in the Simplest Ignition Setup in an FB Mazda RX-7
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FB Mazda RX-7 Broken Ignition Cylinder Replacement and Explanation
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IMSA 3-Piece Wing Mock Up on FB Mazda RX-7
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Innovate Wideband MTX-L O2 Gauge Installation in FB Mazda RX-7
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Mazdatrix Pilot Bearing Install Tool Review for Rotary Engines
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Mazdatrix Flywheel Holding Tool Review
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Rotary Engine Pilot Bearing Removal Explanation
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Running a Turbo Transmission Behind an N/A Rotary Engine
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Simple Sound System Installation in FB Mazda RX-7
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Taurus Electric Fan Installation in FB Mazda RX-7
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Wiring in a Fuel Pump Relay in a FB Mazda RX-7
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Autopower Bolt-In Roll Cage Mock Up FB Mazda RX7 RXSE7EN
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Ball Joint Replacement FB Mazda RX-7
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Front Suspension Refresh in FB Mazda RX7
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Will a Corbeau Forza Wide fit in an FB RX-7?
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Saturday, March 3, 2018
Nom Crab Roe
via Instagram
Crab roe is one of those wonderful things that I just love to eat. It is acquired taste. But even learning how to eat it is a great memory of mine, the last memory i have with my grandfather is him teaching me how to prepare and eat crab roe. Every time I have it, it reminds me of him.
Many people ask me what it taste like.
Its a creamy, rich, custardy texture, that is kinda sweet like sea urchin with a hint of caviar and salt sea flavor, dungeness crabs vary a bit. Sometimes even a tad liver tasting. I mix mine with fish sauce and birds eye chilis. And a hint of garlic salt and pepper.
nothing special has to be done while cooking the crab, cook it as you normally would and when you crack it open you scrape all the inside of the shell together and mix in your sauce and peppers. Then eat it like a soup. Its kinda an ugly bit of food, but it taste so good.
Crab roe is one of those wonderful things that I just love to eat. It is acquired taste. But even learning how to eat it is a great memory of mine, the last memory i have with my grandfather is him teaching me how to prepare and eat crab roe. Every time I have it, it reminds me of him.
Many people ask me what it taste like.
Its a creamy, rich, custardy texture, that is kinda sweet like sea urchin with a hint of caviar and salt sea flavor, dungeness crabs vary a bit. Sometimes even a tad liver tasting. I mix mine with fish sauce and birds eye chilis. And a hint of garlic salt and pepper.
nothing special has to be done while cooking the crab, cook it as you normally would and when you crack it open you scrape all the inside of the shell together and mix in your sauce and peppers. Then eat it like a soup. Its kinda an ugly bit of food, but it taste so good.
Tuesday, February 20, 2018
Japanese fried chicken on rice bun #instablog
Welp i had to try.... japanese chicken thigh rice burgers, with spicy mayo.
I did the fried chicken thighs like the recipe but made spicy mayo and no lettuce.
I think it would be bomb with a sunnyside up egg and kimchi. Just my 2 cents. Otherwise it was a tad bland.
I did the fried chicken thighs like the recipe but made spicy mayo and no lettuce.
I think it would be bomb with a sunnyside up egg and kimchi. Just my 2 cents. Otherwise it was a tad bland.
via Instagram http://ift.tt/2odz6aY
Donnie's WideBody V8 FB RX7 "The Mistress"
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
Looking deeper you can tell that the car has been painstakingly built. Donnie says that it took him 2 years to build from an empty bare shell. With nobody building these cars for Proam level drifting purposes, Donnie pulled his inspiration pretty much from thin air. Pouring in hard work, blood sweat and tears. Owning Stardom Fab, he quickly took to making all the parts that they just don't build for FB RX7s. There isn't a piece of this car that hasn't been touched by Donnie, from the cage, suspension,engine to the chassis and wing. the real question on this car really is what didn't he build?
One of the crowning jewels to Donnie on this car is the steering angle, without cut knuckles, he has figured out how to push about 70 degrees of steering angle! And manages that with a stock steering box!
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| Look At all that Angle |
With all that work quickly a goal formed, "to gain sponsors and compete in Vegas Drift Pro-am", but like many drivers the sponsorship route failed. But that has not deterred Donnie one bit. Fitting for Vegas.... He wants to Double Down and go boosted before the next shot at Pro-Am.
I personally can't wait to see what's next from Donnie's bag of tricks he seems to have.
As one of the few people that even try to drift an SA/FB RX7 on this level his advice to the the new SA/ FB Drifter would be:
"Learn to drift the car as is then when you can consistently link the track, start small on upgrades then learn that set up and then do it over again."
I couldn't say it any better myself, the SA/FB RX7 is such a great Chassis to start with and it has a lot to give in teaching the driver the skills they will need to be great! Donnie has also be great to the SA/ FB RX7 drift community building a Facebook group to help us all come together and share our knowledge, from building our cars to driving our cars. I know personally he has never hesitated to help me out if i had a question, or if I have to compare something on my car to his. It was fun to see this car come together and how much more places it has to go! Cars like this are neat, as they can serve to be an inspiration into what can be done with our cars.
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| Zachary Nazeck @Excessive Wear |
Modification List
Motor:
- Ford 5.0
- GT40p heads
- Alex parts valve spring kit
- Crane 1.7 roller rockers
- Trickflow pushrods
- b303 cam
- BBK headers
- GT40p intake
- 70mm BBK throttle body
- C&L 75mm MAF housing
- 24lb injectors
- BBK fuel Pressure Regulator
Drivetrain:
- Stock t5 trans w/ z32 slave cylinder supplied by a wilwood clutch master
- Custom driveshaft
- Ford explorer 8.8 That's been shortened with custom cnc brackets by Stardom Fab
Suspension
- Custom 4 link Rear Upper and Lower control arms with heims on all ends. by Stardom Fab
- T3 panhard bar.
- Megan racing FC coilovers adapted to fit.
- Custom (extended 3" per side) front lower control arms by Stardom Fabmade from ar500 armor plate and dom tube made to use a factory s4 rx7 ball joint.
Brakes
- Turbo 2 Front Brakes and Spindles
- Explorer Rear Disks and Calipers
- Inline hydraulic handbrake by Stardom Fab
Interior
- Trailtech Vapor LED Gauge Pod in custom dash by Stardom Fab
- Hit and Run Quick Release
- Momo hub adapter
- NRG steering wheel
Safety
- Full Formula D spec cage by Stardom Fab
Fuel
- Jaz fuel cell
- Assault Racing Low Pressure Pump
- Custom Surge Tank by Stardom Fab
- deatschwerks 255il fuel pump
- AN fuel lines
Electrical
- 500cca Harley agm battery
- Custom wiring throughout
Exterior
- Custom wing stands with 69" wing by Stardom Fab
- 6" led light bars for headlights
- Blacktie Motors bumper lights with blue lights.
- Blacktie Motor's Widebody
Steering
- T3 steering box brace
- FC Megan racing outer tie rods
- FC Godspeed outers used as inners
- 70 degrees of steering angle
Shameless Shout Outs
- BlackTie Motor Works
- @Stardom Fab on Instagram
- Photo Credit goes to Zachary Nazeck @Excessive Wear on Instagram. Great group of local photographers that showcase locals and huge events.
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
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| Zachary Nazeck @Excessive Wear |
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