Valve train points to check

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[[File:Valvetrain selection parts.jpg|thumb|440px|Selection of various valve train components]]
 
[[File:Valvetrain selection parts.jpg|thumb|440px|Selection of various valve train components]]
 
==Overview==
 
==Overview==
The valve train is one of the most important segments of any engine build. There can be no destructive contact/collision between any part of the reciprocating assembly and the valve train. And contact between any castings and the valve train has to also be avoided. Clearances have to be established and checked to be sufficient with the engine under operation up to its design limit.  
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The valve train is one of the most important segments of any engine build. Obviously there can be no destructive contact/collision between any part of the reciprocating assembly or engine castings and the valve train. Besides avoiding physical contact, there are also minimum and maximum clearances that have to be established and checked to be sufficient.
  
 
==Things that affect valve train clearances==
 
==Things that affect valve train clearances==
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==Areas of the valve train that need to be checked and verified==
 
==Areas of the valve train that need to be checked and verified==
 
This list is not all-inclusive. Not all areas will apply to all engines and/or builds.<br> {{Note1}}There is no substitute for physically measuring critical areas like piston-to-valve clearances or valve spring installed height and coil bind. For those measurements, do not rely solely on published figures.[[File:Spring clearance diagram1.jpg|thumb|upright=3|Valve spring clearances. Seal to retainer may be less in some cases]]
 
This list is not all-inclusive. Not all areas will apply to all engines and/or builds.<br> {{Note1}}There is no substitute for physically measuring critical areas like piston-to-valve clearances or valve spring installed height and coil bind. For those measurements, do not rely solely on published figures.[[File:Spring clearance diagram1.jpg|thumb|upright=3|Valve spring clearances. Seal to retainer may be less in some cases]]
*[[Valve spring tech]]
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*'''[[Valve spring tech|Valve spring specs]]'''
*[[Valve train points to check#Valve train geometry|Correct geometry]]
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**Valve spring rate
*Coil bind
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**Installed height
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**Coil bind
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*[[Valve train points to check#Valve train geometry|'''Correct geometry''']]
 
*Retainer to seal/valve guide boss at full lift
 
*Retainer to seal/valve guide boss at full lift
 
*Retainer to rocker
 
*Retainer to rocker
 
*Rocker trunnion (roller rockers) or pivot ball/rocker body (stamped steel rockers) to stud boss
 
*Rocker trunnion (roller rockers) or pivot ball/rocker body (stamped steel rockers) to stud boss
*Piston-to-valve clearance (both before and after TDC on overlap)
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*[[Media:P to v rhs.pdf|'''Piston-to-valve clearance''']] (both before and after TDC on overlap)
 
**When advancing/retarding the cam, be sure to recheck piston to valve clearance. Each degree of change effects valve clearance approximately 0.010". Example: If you advance the camshaft 4 degrees, you will '''lose''' about 0.040" clearance between the intake valve and piston, and you will ''gain'' about 0.040" clearance between the exhaust valve and piston. It will be the opposite if the camshaft is retarded.
 
**When advancing/retarding the cam, be sure to recheck piston to valve clearance. Each degree of change effects valve clearance approximately 0.010". Example: If you advance the camshaft 4 degrees, you will '''lose''' about 0.040" clearance between the intake valve and piston, and you will ''gain'' about 0.040" clearance between the exhaust valve and piston. It will be the opposite if the camshaft is retarded.
**Also see [[Quench]]
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**Also see '''[[Quench]]'''
 
*Push rod to guide slot in head (see image below)  
 
*Push rod to guide slot in head (see image below)  
*Use '''EITHER''' self-aligning rockers '''OR''' pushrod guide slots in head '''OR''' guide plates, not two or more of these at the same time
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*Use '''EITHER''' self-aligning rockers '''OR''' pushrod guide slots in head '''OR''' guide plates, but ''NEVER'' two or more of these at the same time
 
*"Rails" of self aligning rockers to retainer and/or locks
 
*"Rails" of self aligning rockers to retainer and/or locks
 
*Rocker to valve tip (if needed, adjust guide plates if used)
 
*Rocker to valve tip (if needed, adjust guide plates if used)
 
*Rocker slot to stud (if using stamped rockers w/pivot balls)
 
*Rocker slot to stud (if using stamped rockers w/pivot balls)
*Rocker arm/polylok to valve cover or oil baffle
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*Rocker arm/polylock to valve cover or oil baffle
 
*Camshaft endplay
 
*Camshaft endplay
 
*Distributor shaft endplay and distributor/cam gear mesh/alignment
 
*Distributor shaft endplay and distributor/cam gear mesh/alignment
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*Hydraulic lifter preload or solid lifter lash setting
 
*Hydraulic lifter preload or solid lifter lash setting
 
*Timing set phasing
 
*Timing set phasing
*[[Timing tabs and damper TDC lines SBC]]
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*'''[[Timing tabs and damper TDC lines SBC]]'''
 
*Cam gear to crank gear alignment
 
*Cam gear to crank gear alignment
 
*Cam gear end play if roller cam
 
*Cam gear end play if roller cam
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*Timing set to timing gear cover
 
*Timing set to timing gear cover
 
*If using the SBC OEM roller cam, lifters and retainers, the '''lobe lift''' must be kept below 0.354” so the lifter won’t lose contact with the retainers
 
*If using the SBC OEM roller cam, lifters and retainers, the '''lobe lift''' must be kept below 0.354” so the lifter won’t lose contact with the retainers
*Cam lobe to connecting rod bolt on strokers
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*Cam lobe to connecting rod bolt on stroker engines
  
 
[[File:Sbc prod guide slot.jpg|thumb|left|450px|Red arrows indicate the pushrod guide slot; slot needs elongating towards the rocker stud if 1.6 ratio rockers are used]]<br style="clear:both"/>
 
[[File:Sbc prod guide slot.jpg|thumb|left|450px|Red arrows indicate the pushrod guide slot; slot needs elongating towards the rocker stud if 1.6 ratio rockers are used]]<br style="clear:both"/>

Latest revision as of 06:29, 15 October 2013

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