Qft carburetor help

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mopardemon340

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Got an Qft ss-850 crab with mechanical secondary. The carb works great except for a slight hesitation off the line. Change the squirter size up 2 size but still have the issue. When I move the throttle the pump arm moves instantly and I get a shot of fuel right away. I'm running a pink pump cam in the number one slot. Any insight on what to try next?
 
Run a blue or green cam up front, pink cams are slow. A little more engine info would help.
 
Run a blue or green cam up front, pink cams are slow. A little more engine info would help.
I idle at 950 and slightly lower in gear. 408stroker, edelbrock rpm air gap intake, 904 trans, 3.73 rear. What else would you like to know. How do I know if I'm getting my shot to soon or to late for my engine
 
he carb works great except for a slight hesitation off the line.

What else would you like to know.
Is this 'off the line' street driving or at the drag strip?
And if its at the drag strip, give us the best description you can of the conditions.
For example, Foot braking and bringing it up to 2500 rpm and then going full throttle at the light.
How do I know if I'm getting my shot to soon or to late for my engine
Does it goes then falls a bit flat (probably used up to early)? or does it hesitate then go (too late)?
First try to get the gentle acceleration as good as you can.
Then experiment, possibly with secondaries disconnected if that helps reduce variables.

There's a few graphs floating around on the internet illustrating pump cam lift vs. throttle angles.
Take all, including Holley's, as useful but not always what you may find on a specific carburetor. One reason is the pump lever contact on the cam can be alterered. There's probably other reasons too.

Here's the one from Holley catalog. I've got a couple more if anyone wants. But this shows why mderoy340 made the suggestion he did.

Holley Cam chart.JPG
 
Is this 'off the line' street driving or at the drag strip?
And if its at the drag strip, give us the best description you can of the conditions.
For example, Foot braking and bringing it up to 2500 rpm and then going full throttle at the light.

Does it goes then falls a bit flat (probably used up to early)? or does it hesitate then go (too late)?
First try to get the gentle acceleration as good as you can.
Then experiment, possibly with secondaries disconnected if that helps reduce variables.

There's a few graphs floating around on the internet illustrating pump cam lift vs. throttle angles.
Take all, including Holley's, as useful but not always what you may find on a specific carburetor. One reason is the pump lever contact on the cam can be alterered. There's probably other reasons too.

Here's the one from Holley catalog. I've got a couple more if anyone wants. But this shows why mderoy340 made the suggestion he did.

View attachment 1715368378
It has a hesitation off the line from a stop then gos. It's not a big hesitation but its enough to notice it. I seen the graphs but it just confuses me cause I dont understand how to read it.
 
It has a hesitation off the line from a stop then gos. It's not a big hesitation but its enough to notice it. I seen the graphs but it just confuses me cause I dont understand how to read it.
Then you're talking about street driving.
OK.
Try to accelerate as gentle as possible and see if it still happens.
If its does, then the beginning of transisition is too lean. Could be as simple as a slight adjustment of the throttle position at idle and a slight change in initial timing.

If it does not happen on gentle acceleration from stop, then an accelerator pump cam change is probably the answer.
So that gets us back to the chart.
If the throttle is halfway opened, that's about 45*; and if its fully open, thats close to 90* or straight up and down.
The throttle blade doesn't start at exactly horizontal, so the zero on the graph is the idle position, not true horizontal.

To accelerate from a stop on a local street, the throttle isn't going to be opened very much. Lets say its 10 degrees.
Look at the bottom of the graph, go to 10.
Then take your finger and go up from the 10 degree mark to the pink line.
Look all the way to the left. That's on the first line.
Now keep going up from the 10 degree mark and we see most of the other cams are around the second line.
What this means is in the first 10 degrees of the throttle opening, the pink cam lifts the pump lever 1/2 as much as the others. So the pink cam causes the least amount of diaphram movement and so pushes the least amount of fuel out of the nozzles at the smallest throttle opening.

upload_2019-7-23_21-59-48.png


Screenshot from the 2012 Catalog.
You can see the shape of the pink cam is very gentle at the begining compared to the green and blue cams - both have a very abrupt initial lift.
upload_2019-7-23_22-26-24.png
 
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Then you're talking about street driving.
OK.
Try to accelerate as gentle as possible and see if it still happens.
If its does, then the beginning of transisition is too lean. Could be as simple as a slight adjustment of the throttle position at idle and a slight change in initial timing.

If it does not happen on gentle acceleration from stop, then an accelerator pump cam change is probably the answer.
So that gets us back to the chart.
If the throttle is halfway opened, that's about 45*; and if its fully open, thats close to 90* or straight up and down.
The throttle blade doesn't start at exactly horizontal, so the zero on the graph is the idle position, not true horizontal.

To accelerate from a stop on a local street, the throttle isn't going to be opened very much. Lets say its 10 degrees.
Look at the bottom of the graph, go to 10.
Then take your finger and go up from the 10 degree mark to the pink line.
Look all the way to the left. That's on the first line.
Now keep going up from the 10 degree mark and we see most of the other cams are around the second mark.
What this means is in the first 10 degrees of the throttle opening, the pink cam lifts the pump lever 1/2 as much as the others. So the pink cam causes the least amount of diaphram movement and so pushes the least amount of fuel out of the nozzles at the smallest throttle opening.

View attachment 1715368387
Thanks for explaining it to me. That helps alot. I'll let you know tomorrow what happened with a standard acceleration. Right now I'm positive it happens only when you get on it from the stop. And with slow acceleration it doesn't do it. But I'll verify it tomorrow.
 
Great. Sounds to me like it may be accelerator pump timing.
See what you find and there may be other opinions here.

If its not, then maybe worth going back and investigating the initial throttle position.
If this link still works, look at the illustrated side bar on that page. It explains it better than I can. It's in Urich & Fisher Holley Carburetors & Manifolds
The section is called Special Procedures for Wild Camshafts
I've linked it above but the links to copyright material are often temporary.
If you want to experiment with that, but not drill or chamfer, there's a few other ways to do it.
1. Your QF may have an 'idle eze' or you can crack open the secondary idle position just a hair.
2. Change the idle speed by bumping up or reducing the initial timing a couple degrees.
 
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Great. Sounds to me like it may be accelerator pump timing.
See what you find and there may be other opinions here.

If its not, then maybe worth going back and investigating the initial throttle position.
If this link still works, look at the illustrated side bar on that page. It explains it better than I can. It's in Urich & Fisher Holley Carburetors & Manifolds

If you want to experiment with that, but not drill or chamfer, there's a few other ways to do it.
1. Your QF may have an 'idle eze' or you can crack open the secondary idle position just a hair.
2. Change the idle speed by bumping up or reducing the initial timing a couple degrees.
The hesitation happens both when you get on it from a stop and when you take it easy from a stop. It's just not as had when when you take it easy. If I shift the car manually it doesn't have the hesitation.
 
I can promise you that isn't the correct power valve opening. I guarantee it. May not be the whole issue but it's part of it.
I'm pulling between 12 and 13 for vacuum in park. But I pull 10 while in gear. So i guess i need to drop to 4.5 PV since its recommended to check it while in gear with an automatic. Just watched a Holley video that said check in gear
 
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The hesitation happens both when you get on it from a stop and when you take it easy from a stop. It's just not as had when when you take it easy. If I shift the car manually it doesn't have the hesitation.
Then first we have to fix the 'idle circuit'. It's in quotes because the 'idle circuit' supplies also supplies all of the fuel at off-idle, low speed cruising, and a significant portion of the fuel mix at moderate cruising.

Without knowing more, the first thing I would suggest is checking the transfer slot openings on the primary side.
See where they are at now (length visible under the throttle plates) and then note the how many turns of the screw from closed to open the throttles enough to show .020", , 0.030", and .040". If you read the sidebar linked above they say .020 to .040 is the typical working range. I think with a QF its likely .040 is too much.

End of drill bit is next to the transfer slot.
The amount of slot exposure is about the same as the bit's diameter. A wire feeler gage can also be used.

upload_2018-12-23_10-37-4-png.png


The question about ignition timing, idle rpm, (and cam, and compression) is relevant because it works together.
If warmed up the engine wont' idle with .020 to .030 depending on the current timing, giving it a little more advance may be what's needed.
Alternatively, cracking open the secondaries a little more at idle may be an answer (or the idle-eze if so equipped)
Finally its possible a slightly larger Idle feed restriction(IFR) or smaller idle air bleed (IAB) is needed.
That's getting into much more advanced work, so that's why I left that to last.
 
Then first we have to fix the 'idle circuit'. It's in quotes because the 'idle circuit' supplies also supplies all of the fuel at off-idle, low speed cruising, and a significant portion of the fuel mix at moderate cruising.

Without knowing more, the first thing I would suggest is checking the transfer slot openings on the primary side.
See where they are at now (length visible under the throttle plates) and then note the how many turns of the screw from closed to open the throttles enough to show .020", , 0.030", and .040". If you read the sidebar linked above they say .020 to .040 is the typical working range. I think with a QF its likely .040 is too much.

End of drill bit is next to the transfer slot.
The amount of slot exposure is about the same as the bit's diameter. A wire feeler gage can also be used.

View attachment 1715368666

The question about ignition timing, idle rpm, (and cam, and compression) is relevant because it works together.
If warmed up the engine wont' idle with .020 to .030 depending on the current timing, giving it a little more advance may be what's needed.
Alternatively, cracking open the secondaries a little more at idle may be an answer (or the idle-eze if so equipped)
Finally its possible a slightly larger Idle feed restriction(IFR) or smaller idle air bleed (IAB) is needed.
That's getting into much more advanced work, so that's why I left that to last.
Never had these problems until I went to a mechanical secondary. The vacuum secondary was flawless and set on the dino. Only thing that's changed was the carb. Went from a holley 770street advantage to a qft ss-850
Transfer slot is set.
950 for idle,
10:1 compression,
intake lift. 353, duration @ .050° 235°/288°
Exhaust. 353, duration @ .050° 241°/294°
Time 18 btdc
 
Then first we have to fix the 'idle circuit'. It's in quotes because the 'idle circuit' supplies also supplies all of the fuel at off-idle, low speed cruising, and a significant portion of the fuel mix at moderate cruising.

Without knowing more, the first thing I would suggest is checking the transfer slot openings on the primary side.
See where they are at now (length visible under the throttle plates) and then note the how many turns of the screw from closed to open the throttles enough to show .020", , 0.030", and .040". If you read the sidebar linked above they say .020 to .040 is the typical working range. I think with a QF its likely .040 is too much.

End of drill bit is next to the transfer slot.
The amount of slot exposure is about the same as the bit's diameter. A wire feeler gage can also be used.

View attachment 1715368666

The question about ignition timing, idle rpm, (and cam, and compression) is relevant because it works together.
If warmed up the engine wont' idle with .020 to .030 depending on the current timing, giving it a little more advance may be what's needed.
Alternatively, cracking open the secondaries a little more at idle may be an answer (or the idle-eze if so equipped)
Finally its possible a slightly larger Idle feed restriction(IFR) or smaller idle air bleed (IAB) is needed.
That's getting into much more advanced work, so that's why I left that to last.
never had this issue until I went from my Holley street avenger 770 to a qft ss-850.
Nothing was changed since the engine was on the dyno except for the carb.
Transfer slot properly by an engine builder.
Timing 18 btdc
Idle 950
Intake lift .353 degree at .050° 235°/288°
Exhaust lift .353. Degree at .050° 241°/294°
 
I'm pulling between 12 and 13 for vacuum in park. But I pull 10 while in gear. So i guess i need to drop to 4.5 PV since its recommended to check it while in gear with an automatic. Just watched a Holley video that said check in gear


The Holley video is wrong. Always was wrong, always will be wrong. Shame on Holley for producing ignorant **** like that. It's moronic. Anyone who tells you to pick power valve opening by idle vacuum is wrong. And always will be wrong.

Idle vacuum has ZERO affect on power valve opening. The later you open the power valve, the bigger the hole in the fuel curve you have to fill with pump shot.

Set your power valve opening by CRUISE vacuum. I'm betting you can use a 10.5 power valve. Probably a 12.5 if you can get one.

Again, don't drop to a 4.5 power valve. Start over, and forget everything Holley says. If they can't get that right, it's no wonder they had to buy Quick Fuel before they went broke.
 
Transfer slot properly by an engine builder.
There is no such thing.
This is not a factory set up where everything has been worked out over weeks if not months of testing and tuning.
Tuning a hot rod or race car requires systematic trials.
You stop when you are satisfied or give up.
 
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