The rocker arms were a little too tight IMO some of the springs looked a little compressed so I loosened them just a little. Let’s see if she starts up.
Greetings heyitzjoel,
The root cause of a sneeze/backfire out of the throttle body is a spark occurring while the intake valve is open. (not fully seated)
The root cause of a backfire out the exhaust is a spark occurring while the exhaust valve is open. (not fully seated.)
Especially if the engine has never run before, this is finally troubleshot to one or more valves hung open due to being
not set correctly. (Valves are perpetrator, Ignition is the victim)
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On the other hand, if the engine has a history of running quietly and smoothly, and suddenly there are intermittent
backfires, this is normally traced to the valves operating correctly, but
now we have a spark occurring at the wrong
time (cross-fire) again firing when either the intake or exhaust is open? (Valves are victim, Ignition is Perpetrator.)
Of course, when you are first trying to start a new motor, it's quite possible to get *both* the valve adjustment
and the distributor alignment goofed up, and now no matter what we try, it's always seems to backfire?
1) So, in order to sort all this out, the first step is to get the ignition timing right.
Your description of watching the intake valve close and then very next TDC
sounds correct. And if you get the dizzy stabbed with the rotor pointing to
the #1 spark plug terminal then this should be good to go.
2) Now to fix the other half of this equation. Long story short, from the
picture you posted I'm thinking that some of your valves are set OK, but
others are set too tight? Check this out:
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Unless all 16 lifters were pumped up, and all possess the same internal
clearances = the same bleed-down rate, it's possible to have difficulty
to set the cold preload by feel alone. (ie: The lifters with looser internal
clearances don't give the right resistance, so it's easy to incorrectly set
them
after the internal plunger is bottomed out internally.)
Instead, when setting the valves cold, it's far preferable to watch
the lifter that you are adjusting. Just as soon as you see the
inner plunger come off of the retainer surrounding the pushrod,
this is your zero-lash point. This is what you will be looking at:
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Of course this means performing the valve adjustment *before* installing
the intake manifold. But instead of pulling the intake manifold back off, you
may consider getting it close enough to start, and then dialing it all in for the
win via a 'running preload' adjustment session.
The point that I'm trying to make is that we can use the number of threads
showing after a valve adjustment procedure has been done as a cross-check
to verify if we got it close enough or we need to make another pass and figure
out what's going on?
NOTE: On a blueprinted engine where everything is held to the center of factory
tolerances, once the valves are set there will be the same number of threads between
the tops of all 16 self-locking nuts and the top of the stud.
In the real world, thanks to recessed valve seats, slight differences in valve stem
lengths if only a couple were replaced, etc., there will be some variability. BUT
if we have an explanation for each variation then we're in control & good to go.
Again, take a look at the threads on all 16 rocker arm/stud assemblies, and see
if you can get them a little more in agreement.
Does this makes sense?
Hang in there, you are close to success!
Best of luck --