I Have been trying to figure out the 90° reference for 4 hours, this video finally made me understand it and made it seem so easy! This was the only one I could find on the internet. Thank you so much 🤘🤘
I talked to Scott over the phone about this process to determine pushrod length. I checked all the corner cylinders of my build and I can say that this process worked flawlessly as it delivered the most lift and least amount of rocker sweep across my valve stems, each and every time I checked and double checked. Great video! Thanks Scott.
Used this method. And got a perfect center sweep with my flat tappet hydraulic lifter. Thanks a bunch. Finally ordered my oushrods today because of thia video!
Video is 10 years old and explained it better than many others I've watched. Imagine how many people this has helped! (307k views and counting at 10/18/24). About to determine length on my solid roller 393w. Thanks Straub!
I’m literally just down to determining the pushrod length for my TT 383 build and someone on a different video told me about this one and man am I glad I watched it because it made the process so much easier
THANK YOU FOR THIS VIDEO!!!😊 Very informative and helpful 👍. Can't make everyone happy. Just some miserable people out there. I got EXACTLY what i was searching for and understood the material exactly. This is not a 72 hour highly detailed engine build, instructional video. So obviously and naturally, some things are going to be assumed. It's a great video about a specific step. No one is perfect. I appreciate the time you took to make this great video. Helped me tremendously in my journey!! My project and i thank you sir. 😊🙏
I was reading "Rocker Geometry" by Jim Miller from Engine Professional, Apr.-Jun. 2010 issue, and trying to wrap my head around it. It's not the easiest article to understand the first time around, and after a couple read overs I looked to see if anyone had done a video on it. This one here made it click right away, and makes it easy. For anyone who watches this, I suggest checking that article out for some more background on why this method works, why measuring "swipe pattern" is tedious, and no way to measure for proper pushrod length, and why a good narrow swipe pattern is simply a by product of using the mid-lift geometry method. Thank you Scott for the easy to understand demonstration.
So I spoke with Scott on the phone and he took the time to explain to me in more depth the problem I was having with this method. Basically I was off a bit measuring my 90 degree angle. You have to understand the importance of being precise as possible on this step cause the slightest miscalculation is magnified because of the angles and ratios. Once I got it right the pattern on the valve was very narrow and just barely off center, which tells me my valve is being pushed straight down with very little sweep from side to side. This is the correct way to set up valve train.
Would just like to say big Thank you for your Talent. At 7:30 in the video your comment, You just established proper pushrod geometry. I then marked the top of my valve stem with a marker and held my rocker up and moved it back and forth over the valve stem. You now can actually see exactly where the rocker roller is located at half lift. Thanks again Scott for the video.
I’m dyslexic AH. The whole geometry and pushrod length calculations voodoo have always been scary to me. This! I understand. This I can do and repeat over and over and check it and feel good about it. This gives us dyslexics a simple “visual” way to see it, understand it and accomplish it without the hoping and praying it correct and that we haven’t made a mistake. Thank you sir. Wish I’d seen this years ago!
Great video, I’ve been racking my brain trying to figure out pushrod length without swapping springs or using solid lifters like almost every other video says you have to do. Thank you.
Awesome vid! And Id like to take a moment to add you’re hands down the most helpful fella Ive run across. Ive never seen anyone say throw out call me if you need help/have questions as you. Hats off to you sir. 👍🏻👍🏻👊🏻
This is what a video should be, I clicked he told me what he was meant to....I didn't hear about his wife, weather, or saw wrist and tired....made my day, Thank you.
I've watched a variety of videos read a lot about setting this up. Everything was all guess work. You're the first to introduce math and when dealing with precision measurements, you can't guess, you must measure. But... HOW? Well you clearly cleared that up. I've been stressing for days about doing this and if I'd get it right. Tons of second guessing and re-watching yours and other videos but your's is the only one that made the most sense. Sure enough, I did everything you said and with the first turns of the cam, I am 100% in spec with the rocker roller on the top of the cam. I'd like to offer you a virtual hug cuz you're amazing :)
Great video! Thanks for the excellent explanation. I spent a full day of my life trying to figure out push rod length for my 498 stroker BBC. I used 3 different measurement techniques and got consistently different length estimates. Your technique resulted in the longest measurements by about 0.10 - 0.15 over the other methods I used. I decided to rely on your method rather than collapsing lifters, looking at marker patterns, etc. Hope it works properly for me!
His method works on Crane roller rockers, but my roller rockers have a bigger wheel roller on the valve end, so the straight line theory doesnt work for me.
Ummm? Just because the roller at the valve tip is larger, or smaller for that fact, doesn’t change where the center is. You go from center of the trunnion bearing to the center of the tip roller to determine your “center line”. Only hitch I can imagine would be if the intake and exhaust had different size rollers at the tip. And even in that particular case you would just have to measure/setup the intake and exhaust independently.
Man I cannot thank you guys enough for this video. This is the absolute best I have ever seen this process explained and it made measuring my pushrods so much easier. I can't like a video harder. :D
Dare I call this an introductory, no obligation, gift. Absolutely Free! Shirt, pants, wallet and watch... ✔️. I'm not waiting around for the catch here, this is simply well articulated, sound advise offered to showcase a preview of what potential, existing and past customers shall receive. Thank you sir.
For those of you that are being sidetract about the rocker ratio and thinking the ratio affects how many turns of the adjusting nut....this doesn't matter.The rocker ratio could be 1.2:1 or 1.9:1........ you still want to have the centreline of the trunions at 90 degrees to the valve at mid lift.....and then when that is established, measure for pushrod length.
Forrest Miller to be fair, the rocker ratio does affect how many turns you need to turn the adjuster, it’s just that it’s already been included. He is making his calculations based on 1/2 of total VALVE lift, which is your cam lift multiplied by rocker ratio.
Here it is I was pondering how to figure it out, knew the info was somewhere, It’s HERE!! Now I can do my Pontiac heads like this with an entire different set up and get the correct PR pieces .. Thank you Very much for this valuable wisdom teaching!!
Thanks for sharing I was taking notes as you are teaching because I will be performing this method this weekend on my 468 BBC Hyd Roller Cam . I commend Howard Cams wouldn’t sell me push rods when I ordered the cam now I know the reason. More performance and longer life!!!!
Best video I have seen yet on how to properly set up rocker geometry. I just watched a different video that was like you said, full of misinformation. Thank you for teaching proper techniques. Awesome video!
I know this vid is like 7 yrs old and contains stellar info I was wondering why no-one has done a video when it comes to shaft mounted roller rockers as setting the pushrod length is quite a different process..I know you said its ok to call I still believe in being courteous and let you ultilize your time in the manner you need to utilize it in instead of me calling at an inopportune time.
So happy to have found this vid. This has been the most logical explanation of doing this. It all makes sense this way. Hands down. I can't wait to apply this. Thx.
Using this method I found out the pushrods I originally bought were dangerously short, .25” too short. Damn I’m glad I took the time to do this. I haven’t put too many miles on it yet so I hope the damage to the valve heads is minimal, it was good on the #1 exh valve I used to check this although my wear pattern was obvious, about 3/32” wide but centered over the top. So centering the roll pattern is obviously not the right way to determine PR length.
Should edit the video to add a note about stock rocker studs sometimes needing to be swapped out for longer to get this method to work. I’m in the middle of trying to figure this out now. Thanks for the vid!
I wish you could do a video on shafted rockers. This video was fantastic! I am trying to apply what you taught me to find proper shafted rocker arm alignment. Thank you
I am building a 540 bbc with dart pro 1s. The question I have is to get proper rocker geometry do u need to torque the head down with the gasket? I also need to check my piston to valve clearance. I would hate crush a brand new gasket in order to set the geometry right. What I am really saying I want the proper pushrod for when I check my piston to valve clearance. Any advice would be greatly appreciated. Thanks
+David Sanders Why not use marker??. Marker technique seems much more fool proof than this!. The greater your rocker ratio... the more difficult (read: INACCURATE) this method gets.
I’m using a Howard’s cams lifter and they recommend 1/2 to 3/4 turn for preload so if I were to go 3/4 turn with a 3/8 stud would that mean preload is .0315?
I have one question: Previously for piston to valve clearance checking purposes I converted two of the existing hydraulic lifters my engine uses into solid ones. I did this by using washers to locate the top internal moving part of the lifter (sorry not sure what it's called exactly) against the bottom of the retainer wire/clip piece. Should I use the lifters in this condition for the geometry check/set-up or change them back to original first?
Question: What is more important - the 90* relationship between rocker and valvestem @ 1/2 lift - OR - a centered swipe of the rocker on the tip of the valvestem? I'm setting up a garden variety healthy 355 sbc. Using 1.6 roller rockers and Flotek 180cc heads. I used this technique to determine PR length. However, with this "correct" length PR, my contact patch between rocker tip and valvestem tip is a bit outboard of the valve centerline. I could "correct" that by shortening the pushrod - but then I wouldn't have the 90* angle anymore. Is one more important than the other?
Loved the video. Well done my friend. Easily understandable and well versed and it tought me a thing or two that for sure.thanks. you just made a subscriber out of me.
I'd like to say thank you very much for posting this. After trying to do the marker method and seeing how unreliable it is, I am convinced this is the only way get get an accurate measurement when setting up a hydraulic cam.
Scott, I read through all the comments and appreciate all the advice you willingly give. I had another question. I may be confused on where a hydraulic lifter sits when pumped up and in a running engine. I think I understand all the measurements and rationale however, here is the question. If I set up the geometry as you say, how is the lifter collapsing due to the 3/4 to 1 turn of the rocker arm nut and the resulting lifter collapsing and or where the push rod seat/lifter top cup (where the push rod sits) affect the measurement that we are calculating. In other words, it seems that the collapsing of the hydraulic lifter (versus solid lifter) would change our measurement (and the 90 degrees and so forth). Thanks in advance for your reply.
If your mocking up the engine, it's best to use a used (previously compressed) head gasket. This will save wasting a new one to get the head in the location it will be on the finished engine.
Finally got to try the half lift method and have to say I dont know what it is but it gave me a length that put the roller tip on the outboard side of the valve tip center line. Something is not right and I did this measurement multiple times and still keep coming up with a pushrod length of 6.50" length. If I use the OE pushrod length of 6.25" the roller tip is on the inboard side of the valve tip center line. Using 6.35" puts the roller tip slightly closer to the center line of the valve tip. Even adding the thickness of the head gasket would still put it at 6.40".
With the length you must have a SBF. Rocker geometry from different mfg vary. You will need backset rocker. If not used a wide centered sweep pattern will wear out valve guides.
@@straubtechnologies, yep ford 302 OE roller. I did the math on the 2/3 lift method which in all my reading the other day kept coming up in posts after 2015. With the 2/3 lift method it actually gives me a 6.35" pushrod which puts the starting point just on the intake side of the center of the valve. Still doing some reading on the 2/3 lift method how ever and seeing if it would be a viable alternative for a street driven engine that wont turn over 6,000 rpm.
I loved the video! Was exactly what I needed! No fat, all meat, and not drawn out. Takes time and effort to do these videos and unfortunately, not everyone appreciates that.
Hi, I kind of have a confusion about how rocker arm geometry is met when you have a larger cam, because if an aftermarket cam was installed with a larger amount of lift then the stock one, wouldn’t the larger lift cause the rocker arm to be out of spec with 90 degrees at mid lift. And if the push rods were changed to gain 90 degree geometry at mid lift with this new cam wouldn’t you lose the effect of the larger lift. My next question is how do you find correct rocker arm geometry with stock rocker arms, to my knowledge all you can do is just color in the valve tip and then rotate the motor over a few times and keep adjusting the push rod until the mark left on the valve is centered- is this the best way to this with stock rockers? Then how do you find the proper lifter preload, I am working on a 1979 302 Ford and I have been told to give each rocker arm nut a half a turn to set the preload after running the motor at idle loosening each rocker nut until the rocker arm clatters, then tightening the nut just until it quits clattering. When it comes to lifter preload wouldn’t this also change the rocker arm geometry.
with hydraulic lifters you need to add the proper preload for the lifter used. Different manufacturers may require different preload for the same engine.
J Cunningham 1/2 turn on your rocker stud wont make a big difference. A 3/8 fine thread bolt has .042 per turn, a 7/16 bolt has .050 per turn. You buy custom pushrods at .050 intervals. Some builders like Ralph Johnson, Smokey Yunick etc. run their rockers on the outboard side of the valve, it turns a 1.5 rocker into a 1.65 rocker. ua-cam.com/video/RjaosX63DkM/v-deo.html
Awesome video indeed! But just to see if I get this right, at the point of extending the adjustable pushrod (9:48) and taking up all the slack, the valve is still in it's fully closed position. So, at this point the lifter was sitting on the base circle of the cam, right?
Excellent video! Makes logical sense. I tried this on my 454 with Edelbrock Performer heads and Harland Sharp rockers and encountered a problem-in order to get the line drawn at rocker pivot centers 90 degrees to the valve stem, the stud will be too short to catch any threads with the locknut. What to do now? Thanks
+Scott Foxwell OK, cleared that hurdle, thanks for the tip, but now I get a much shorter result using the marker method (12 turns out on the checker tool) vs. this method (20 turns out). With this method, the roller tip is to the exhaust edge of the valve stem, nowhere near centered. What am I doing wrong? Thanks
I am in no way an expert on this. As a matter of fact, I've never done it. But I would think that you want it on the low side of the lobe, "closed valve".
With a head gasket in place. That gasket has a compressed thickness that will add to the total distance the pushrod must extend over in order to mate the lifter to the rocker arm.
I use the Manley pushrod checker, comp cams tech had me do it like in the video and the pushrod length were the same both ways …… slip it over stud till it touches top of valve then adj pushrod to touch the checker
I have Howard link bar lifters (ford 289l) do i have to think about the hydraulic lifter preload? Of do just this method and order this length without plus or minus preload setting?
Hi Scott I just have a question about rolling the motor over with the push rods out. I bought a car that the guy told me needed a head gasket.He started the job but quit about a year ago,the motor has been left with injector rail and exhaust manifold off I want to see if the motor is froze and if I need a new motor or just the head gasket
Never have installed a roller cam or rockers before, using the half lift method make sense to me theoretically, just wanted your input and see if my thinking was right on this. Averaging the lift between intake .515 and exhaust .530 on the Lunati 20510711 roller cam .5225 half that .26125/.050 is equal to 5.225 turns past 90 degree point with the valve. So if I stop at 4.5 turns + 1 flat of the adjusting nut to measure for the pushrod, then when it’s installed it would be 5 turns + 1 flat or half turn past zero lash and that should center the roller on the valve stem and set the preload on the lifter?? Will this keep the pushrods all the same length or do you need to do one length for intake and another length for exhaust?
Great video! This is definitely going to help me out. I see it's and old video so I'm not sure if Scott still works there. From the video I could tell if the head gasket was in there. Once you get the measurement shown do you have to add to the measurement for head gasket and valve lash?
Good question. I myself didn't notice if the head gasket was there or not, but curious if it needs to be accounted for. Seems like it would affect the final rod length.
Did you ever find out? Im curious too? Seems like you'd have to determine teh total travel of the hydraulic lifter plunger and add half of that to the pushrod length?
I Have been trying to figure out the 90° reference for 4 hours, this video finally made me understand it and made it seem so easy! This was the only one I could find on the internet. Thank you so much 🤘🤘
Lol, here from your video. BIG thanks to the Straub guys
I talked to Scott over the phone about this process to determine pushrod length. I checked all the corner cylinders of my build and I can say that this process worked flawlessly as it delivered the most lift and least amount of rocker sweep across my valve stems, each and every time I checked and double checked. Great video! Thanks Scott.
Used this method. And got a perfect center sweep with my flat tappet hydraulic lifter. Thanks a bunch. Finally ordered my oushrods today because of thia video!
Video is 10 years old and explained it better than many others I've watched. Imagine how many people this has helped! (307k views and counting at 10/18/24). About to determine length on my solid roller 393w. Thanks Straub!
I’m literally just down to determining the pushrod length for my TT 383 build and someone on a different video told me about this one and man am I glad I watched it because it made the process so much easier
Thank you for an excellent video and explanation. I watched a half dozen tonight, and this was the clearest and easiest to understand. Thanks!
Looks like I got lucky, this is my 2nd and extremely clear compared to the last vid.
Cody Stelzer this was my first. I don’t think I need to watch any others.
Oh look, how to degree a cam in the related videos.... I’m off
This is absolutely THE BEST description of how to find your proper push rod length.
THANK YOU FOR THIS VIDEO!!!😊 Very informative and helpful 👍. Can't make everyone happy. Just some miserable people out there. I got EXACTLY what i was searching for and understood the material exactly. This is not a 72 hour highly detailed engine build, instructional video. So obviously and naturally, some things are going to be assumed. It's a great video about a specific step. No one is perfect. I appreciate the time you took to make this great video. Helped me tremendously in my journey!! My project and i thank you sir. 😊🙏
yes sir this is a very good video probably the best on here .thank you
I was reading "Rocker Geometry" by Jim Miller from Engine Professional, Apr.-Jun. 2010 issue, and trying to wrap my head around it. It's not the easiest article to understand the first time around, and after a couple read overs I looked to see if anyone had done a video on it. This one here made it click right away, and makes it easy. For anyone who watches this, I suggest checking that article out for some more background on why this method works, why measuring "swipe pattern" is tedious, and no way to measure for proper pushrod length, and why a good narrow swipe pattern is simply a by product of using the mid-lift geometry method. Thank you Scott for the easy to understand demonstration.
Scott, hands down this is the best explanation/demonstration about. Thank you.
So I spoke with Scott on the phone and he took the time to explain to me in more depth the problem I was having with this method. Basically I was off a bit measuring my 90 degree angle. You have to understand the importance of being precise as possible on this step cause the slightest miscalculation is magnified because of the angles and ratios. Once I got it right the pattern on the valve was very narrow and just barely off center, which tells me my valve is being pushed straight down with very little sweep from side to side. This is the correct way to set up valve train.
Would just like to say big Thank you for your Talent. At 7:30 in the video your comment, You just established proper pushrod geometry. I then marked the top of my valve stem with a marker and held my rocker up and moved it back and forth over the valve stem. You now can actually see exactly where the rocker roller is located at half lift. Thanks again Scott for the video.
Valvetrain Geometry is something most other engine building videos glaze over; this is by far the best video I've seen on how to properly do this.
awfsh
I’m dyslexic AH. The whole geometry and pushrod length calculations voodoo have always been scary to me. This! I understand. This I can do and repeat over and over and check it and feel good about it. This gives us dyslexics a simple “visual” way to see it, understand it and accomplish it without the hoping and praying it correct and that we haven’t made a mistake. Thank you sir. Wish I’d seen this years ago!
This is by far the best explanation of measuring proper pushrod length and rocker arm geometry. Thank You for this video.
Great video, I’ve been racking my brain trying to figure out pushrod length without swapping springs or using solid lifters like almost every other video says you have to do. Thank you.
Awesome vid! And Id like to take a moment to add you’re hands down the most helpful fella Ive run across. Ive never seen anyone say throw out call me if you need help/have questions as you. Hats off to you sir. 👍🏻👍🏻👊🏻
This is what a video should be, I clicked he told me what he was meant to....I didn't hear about his wife, weather, or saw wrist and tired....made my day, Thank you.
I've watched a variety of videos read a lot about setting this up. Everything was all guess work. You're the first to introduce math and when dealing with precision measurements, you can't guess, you must measure. But... HOW? Well you clearly cleared that up. I've been stressing for days about doing this and if I'd get it right. Tons of second guessing and re-watching yours and other videos but your's is the only one that made the most sense.
Sure enough, I did everything you said and with the first turns of the cam, I am 100% in spec with the rocker roller on the top of the cam. I'd like to offer you a virtual hug cuz you're amazing :)
Great video! Thanks for the excellent explanation. I spent a full day of my life trying to figure out push rod length for my 498 stroker BBC. I used 3 different measurement techniques and got consistently different length estimates. Your technique resulted in the longest measurements by about 0.10 - 0.15 over the other methods I used. I decided to rely on your method rather than collapsing lifters, looking at marker patterns, etc. Hope it works properly for me!
His method works on Crane roller rockers, but my roller rockers have a bigger wheel roller on the valve end, so the straight line theory doesnt work for me.
Ummm? Just because the roller at the valve tip is larger, or smaller for that fact, doesn’t change where the center is. You go from center of the trunnion bearing to the center of the tip roller to determine your “center line”. Only hitch I can imagine would be if the intake and exhaust had different size rollers at the tip. And even in that particular case you would just have to measure/setup the intake and exhaust independently.
Man I cannot thank you guys enough for this video. This is the absolute best I have ever seen this process explained and it made measuring my pushrods so much easier. I can't like a video harder. :D
This is the best video. Very nice explanation, and the camera got in there up close when it needed to
Dare I call this an introductory, no obligation, gift. Absolutely Free! Shirt, pants, wallet and watch... ✔️. I'm not waiting around for the catch here, this is simply well articulated, sound advise offered to showcase a preview of what potential, existing and past customers shall receive. Thank you sir.
This is the very best info to make the adjustments and push rod length selection I have ever seen!
Thanks for the detailed explanation. Nearly every other video on this topic leaves out the specifics.
For those of you that are being sidetract about the rocker ratio and thinking the ratio affects how many turns of the adjusting nut....this doesn't matter.The rocker ratio could be 1.2:1 or 1.9:1........ you still want to have the centreline of the trunions at 90 degrees to the valve at mid lift.....and then when that is established, measure for pushrod length.
Forrest Miller to be fair, the rocker ratio does affect how many turns you need to turn the adjuster, it’s just that it’s already been included. He is making his calculations based on 1/2 of total VALVE lift, which is your cam lift multiplied by rocker ratio.
This does not take the ratio into consideration. The lift is on the cam which will be multiplied with the ratio to create the valve movement
Here it is I was pondering how to figure it out, knew the info was somewhere, It’s HERE!!
Now I can do my Pontiac heads like this with an entire different set up and get the correct PR pieces ..
Thank you Very much for this valuable wisdom teaching!!
This tutorial just changed the game for me. Very good information!
This video was amazing! Explains and shows everything so clearly! Thanks!
Thanks for sharing I was taking notes as you are teaching because I will be performing this method this weekend on my 468 BBC Hyd Roller Cam . I commend Howard Cams wouldn’t sell me push rods when I ordered the cam now I know the reason. More performance and longer life!!!!
Thank you. Just exactly what I needed to learn. Hope you do more instructionals. Very well done
Best video I have seen yet on how to properly set up rocker geometry. I just watched a different video that was like you said, full of misinformation. Thank you for teaching proper techniques. Awesome video!
Thank you, my friend! My first engine rebuild a success thanks to your video.
Man on man this is an excellent video. A grade schooler can understand this. Thank you.
couldn't be explained any better. good job
Could you please make a similar video using shaft mounted roller rockers - showing shimming under pedestal mounts etc. for centerlines?
Thanks for sharing that, very good video skills.
Thanks a lot for sharing this video. Very professionally explained.
Thank you for this video. Greenhorns like myself need the help. Much appreciated.
Great video Scott . Thanks for the information!! Well done 👏🏻🏁😎
Waaayyy more informative and detailed than summits video.
Thanks...This made more sense than anyone here on UA-cam.
I know this vid is like 7 yrs old and contains stellar info I was wondering why no-one has done a video when it comes to shaft mounted roller rockers as setting the pushrod length is quite a different process..I know you said its ok to call I still believe in being courteous and let you ultilize your time in the manner you need to utilize it in instead of me calling at an inopportune time.
So happy to have found this vid. This has been the most logical explanation of doing this. It all makes sense this way. Hands down. I can't wait to apply this. Thx.
That was a new way of doing it very enjoyable but still will be measuring both ways just 2 make sure of everything.
Great video. You're good at explaining.
fantastic video mate , the real reason the internet is here , knowledge sharing.
Using this method I found out the pushrods I originally bought were dangerously short, .25” too short. Damn I’m glad I took the time to do this. I haven’t put too many miles on it yet so I hope the damage to the valve heads is minimal, it was good on the #1 exh valve I used to check this although my wear pattern was obvious, about 3/32” wide but centered over the top. So centering the roll pattern is obviously not the right way to determine PR length.
scott , just wanted to say thanks for the video . really helped me out . God bless .
Excellent presentation! Three thumbs up!
Best explanation on rocker arm geometry .. A+A+A+..
Should edit the video to add a note about stock rocker studs sometimes needing to be swapped out for longer to get this method to work. I’m in the middle of trying to figure this out now. Thanks for the vid!
Yea. That was pretty clean!!
Larry
Great video, thanks for the schooling. Paisano
I wish you could do a video on shafted rockers. This video was fantastic! I am trying to apply what you taught me to find proper shafted rocker arm alignment. Thank you
I am building a 540 bbc
with dart pro 1s. The question I have is to
get proper rocker geometry do u need to
torque the head down
with the gasket? I also
need to check my piston
to valve clearance. I would hate crush a brand new gasket in
order to set the geometry right. What
I am really saying I
want the proper pushrod
for when I check my piston to valve clearance. Any advice
would be greatly appreciated. Thanks
Excellent video! This is the proper way to measure, do NOT use the maker technique this is proper geometry and won't stress your parts. Thank you!
David Sanders Thank you.
+David Sanders Why not use marker??. Marker technique seems much more fool proof than this!.
The greater your rocker ratio... the more difficult (read: INACCURATE) this method gets.
+Marek Sumguy
A marker over math. I dont' think so. You base the lift off of what rocker ratio you are using.
+Dave Mustaine Yes I left a warning comment on that video, haha.
+Dave Mustaine I just watched it and was like WTF
CAM MUST BE ON BASE CIRCLE FIRST
Top notch Sir, much obliged for the insight
Great video. Very clear. Thank you!
thanks for the help
Next 400SBC & 402BBB, we will be doing business together. Live life LOUD!!!!
Great video, crystal clear, thank you, thank you!
Great video. Excellent explanation.
Very nice video.. Thanks for sharing.
I’m using a Howard’s cams lifter and they recommend 1/2 to 3/4 turn for preload so if I were to go 3/4 turn with a 3/8 stud would that mean preload is .0315?
Great video. Exactly what I needed.
I have one question:
Previously for piston to valve clearance checking purposes I converted two of the existing hydraulic lifters my engine uses into solid ones. I did this by using washers to locate the top internal moving part of the lifter (sorry not sure what it's called exactly) against the bottom of the retainer wire/clip piece.
Should I use the lifters in this condition for the geometry check/set-up or change them back to original first?
Question: What is more important - the 90* relationship between rocker and valvestem @ 1/2 lift - OR - a centered swipe of the rocker on the tip of the valvestem? I'm setting up a garden variety healthy 355 sbc. Using 1.6 roller rockers and Flotek 180cc heads. I used this technique to determine PR length. However, with this "correct" length PR, my contact patch between rocker tip and valvestem tip is a bit outboard of the valve centerline. I could "correct" that by shortening the pushrod - but then I wouldn't have the 90* angle anymore. Is one more important than the other?
Thanks. Big help.
Loved the video. Well done my friend. Easily understandable and well versed and it tought me a thing or two that for sure.thanks. you just made a subscriber out of me.
I'd like to say thank you very much for posting this.
After trying to do the marker method and seeing how unreliable it is, I am convinced this is the only way get get an accurate measurement when setting up a hydraulic cam.
Scott, I read through all the comments and appreciate all the advice you willingly give. I had another question. I may be confused on where a hydraulic lifter sits when pumped up and in a running engine. I think I understand all the measurements and rationale however, here is the question. If I set up the geometry as you say, how is the lifter collapsing due to the 3/4 to 1 turn of the rocker arm nut and the resulting lifter collapsing and or where the push rod seat/lifter top cup (where the push rod sits) affect the measurement that we are calculating. In other words, it seems that the collapsing of the hydraulic lifter (versus solid lifter) would change our measurement (and the 90 degrees and so forth). Thanks in advance for your reply.
DAn did you ever figure this out? I assume your asking if you add the preload into the lenght of the push rod?
If your mocking up the engine, it's best to use a used (previously compressed) head gasket. This will save wasting a new one to get the head in the location it will be on the finished engine.
Finally got to try the half lift method and have to say I dont know what it is but it gave me a length that put the roller tip on the outboard side of the valve tip center line. Something is not right and I did this measurement multiple times and still keep coming up with a pushrod length of 6.50" length.
If I use the OE pushrod length of 6.25" the roller tip is on the inboard side of the valve tip center line. Using 6.35" puts the roller tip slightly closer to the center line of the valve tip. Even adding the thickness of the head gasket would still put it at 6.40".
With the length you must have a SBF. Rocker geometry from different mfg vary. You will need backset rocker. If not used a wide centered sweep pattern will wear out valve guides.
@@straubtechnologies, yep ford 302 OE roller. I did the math on the 2/3 lift method which in all my reading the other day kept coming up in posts after 2015. With the 2/3 lift method it actually gives me a 6.35" pushrod which puts the starting point just on the intake side of the center of the valve.
Still doing some reading on the 2/3 lift method how ever and seeing if it would be a viable alternative for a street driven engine that wont turn over 6,000 rpm.
Excellent! Clear and concise!
Genius! It's so simple !
I loved the video! Was exactly what I needed! No fat, all meat, and not drawn out. Takes time and effort to do these videos and unfortunately, not everyone appreciates that.
Hi, I kind of have a confusion about how rocker arm geometry is met when you have a larger cam, because if an aftermarket cam was installed with a larger amount of lift then the stock one, wouldn’t the larger lift cause the rocker arm to be out of spec with 90 degrees at mid lift. And if the push rods were changed to gain 90 degree geometry at mid lift with this new cam wouldn’t you lose the effect of the larger lift.
My next question is how do you find correct rocker arm geometry with stock rocker arms, to my knowledge all you can do is just color in the valve tip and then rotate the motor over a few times and keep adjusting the push rod until the mark left on the valve is centered- is this the best way to this with stock rockers?
Then how do you find the proper lifter preload, I am working on a 1979 302 Ford and I have been told to give each rocker arm nut a half a turn to set the preload after running the motor at idle loosening each rocker nut until the rocker arm clatters, then tightening the nut just until it quits clattering.
When it comes to lifter preload wouldn’t this also change the rocker arm geometry.
with hydraulic lifters you need to add the proper preload for the lifter used. Different manufacturers may require different preload for the same engine.
J Cunningham 1/2 turn on your rocker stud wont make a big difference. A 3/8 fine thread bolt has .042 per turn, a 7/16 bolt has .050 per turn. You buy custom pushrods at .050 intervals. Some builders like Ralph Johnson, Smokey Yunick etc. run their rockers on the outboard side of the valve, it turns a 1.5 rocker into a 1.65 rocker. ua-cam.com/video/RjaosX63DkM/v-deo.html
Awesome video indeed!
But just to see if I get this right, at the point of extending the adjustable pushrod (9:48) and taking up all the slack, the valve is still in it's fully closed position. So, at this point the lifter was sitting on the base circle of the cam, right?
Is it setting on the base circle of the cam
Excellent video! Makes logical sense.
I tried this on my 454 with Edelbrock Performer heads and Harland Sharp rockers and encountered a problem-in order to get the line drawn at rocker pivot centers 90 degrees to the valve stem, the stud will be too short to catch any threads with the locknut. What to do now?
Thanks
+Scott Foxwell OK, cleared that hurdle, thanks for the tip, but now I get a much shorter result using the marker method (12 turns out on the checker tool) vs. this method (20 turns out). With this method, the roller tip is to the exhaust edge of the valve stem, nowhere near centered. What am I doing wrong?
Thanks
Scott Foxwell
You’d like the adjuster to have 6-7 turns before it meets rocker trunion?
This is an outstanding video.
Thankyou Scott excellent video.
When measuring the pushrod checking tool, do you need to make any compensations for hydraulic lifters? This is a great video. Best on the net. Thanks!
My understanding is that if you're using lightweight checker springs, it won't compress the hydraulic lifter but you have to verify that visually.
PS dont feed the trolls that cant put up their own videos to back up their information! great video once again!
Thank you Jerrod....I agree.
Great video! Thanks!
Where on the cam does the lifter need to be to have this work properly?
I am in no way an expert on this. As a matter of fact, I've never done it. But I would think that you want it on the low side of the lobe, "closed valve".
Yes, he missed that completely.
Wish I saw this sooner lol. Great explanation!
do you do this with or without head gasket in place,excellent video
With a head gasket in place. That gasket has a compressed thickness that will add to the total distance the pushrod must extend over in order to mate the lifter to the rocker arm.
Awesome information!
Do I need to put in the check springs or am I good as long as I don’t pre soak the lifters and don’t compress them?
You will need checking springs installed. Otherwise, there will be no way for the valve to actuate correctly as you rotate your engine.
Hi there Straub whats the spring kit on valve part number for a sbc thanks
I use the Manley pushrod checker, comp cams tech had me do it like in the video and the pushrod length were the same both ways …… slip it over stud till it touches top of valve then adj pushrod to touch the checker
I have Howard link bar lifters (ford 289l) do i have to think about the hydraulic lifter preload? Of do just this method and order this length without plus or minus preload setting?
Fantastic, thank you!!! Thumbs up for this video.
Hi Scott I just have a question about rolling the motor over with the push rods out. I bought a car that the guy told me needed a head gasket.He started the job but quit about a year ago,the motor has been left with injector rail and exhaust manifold off I want to see if the motor is froze and if I need a new motor or just the head gasket
Many thanks, great vid very clear....
Never have installed a roller cam or rockers before, using the half lift method make sense to me theoretically, just wanted your input and see if my thinking was right on this. Averaging the lift between intake .515 and exhaust .530 on the Lunati 20510711 roller cam .5225 half that .26125/.050 is equal to 5.225 turns past 90 degree point with the valve. So if I stop at 4.5 turns + 1 flat of the adjusting nut to measure for the pushrod, then when it’s installed it would be 5 turns + 1 flat or half turn past zero lash and that should center the roller on the valve stem and set the preload on the lifter?? Will this keep the pushrods all the same length or do you need to do one length for intake and another length for exhaust?
Great video! This is definitely going to help me out. I see it's and old video so I'm not sure if Scott still works there. From the video I could tell if the head gasket was in there. Once you get the measurement shown do you have to add to the measurement for head gasket and valve lash?
Good question.
I myself didn't notice if the head gasket was there or not, but curious if it needs to be accounted for.
Seems like it would affect the final rod length.
If using hydraulic lifters.. do you add the amount of preload to the OAL length of the newly determined push rod length?
Did you ever find out? Im curious too? Seems like you'd have to determine teh total travel of the hydraulic lifter plunger and add half of that to the pushrod length?
@@KyleP133 never found out.. guess we can always call them