Kubota L4740 Engine "knock" Help?

[rScotty]

OK. You are making progress. That leak needed fixing and now it is. Although the knock may seem louder now, we know that neither the knock or what is causing it has actually changed. So that's progress too - even if it doesn't sound like it.

For internal noises I've never had much luck sorting out which cylinder is making a noise. About all I've ever been able to do is what you have where you say it seems to be coming from the rear or the front of the engine. A stethoscope doesn't seem to work for me for pinning down the location of internal engine noises. I do as well just - or poorly - just walking around the tractor.

Hmm.... that reminds me. I was going to ask how difficult it is to take off the hood. If you have to start messing with the top of the back of an engine sometimes it's easier to take the hood off to get some working space.

As for isolating the cylinder.... I agree that's what you need to do now... no matter what the cause. The best way I know of to do that is to deliberately cause a cylinder to stop firing and see what effect that has on the knock. I don't think we know at this point if disconnecting the cylinder will make it knock more or less, but you have 3 other cylinders to compare with.

In the day's of gas engines we would simply short out a spark plug to do this test. For a diesel we usually scandalize the fuel flow to the injector. Same thing..

To know how to scandalize the flow, we first need to know if your engine is mechanical injection or common rail? With mechanical injection, each injector is fed by a separate line from the fuel pump. 4 cylinders = 4 separate lines. There may or may not be glow plugs with an electrical connection for each cylinder, but the injectors themselves are totally mechanical; no wires go to the injectors.

To "defeat" (sounds better than scandalize) an injector, you slightly loosen that pressurized feed line either at the injector or back at the pump. This makes for a major leak of diesel fuel but you keep the wrench on the nut and tighten it to stop the leaking while you think about the change in sound that happened when you loosened it up and that cylinder quit firing. i.e. the change in noise - or not - when that cylinder was taken offline. Do it a couple of times, keep a towel handy. If that injector is good, then taking it off line is going to make the engine run real ratty, but not affect the knock. And if the knock changed when you cut off it's fuel, then that cylinder's injector is suspect.

Now try one one of the known good cylinders. Does that make sense with what we just heard?

Alternatively, if your engineis the more modern "common rail", there is a common overhead line fed by the single line coming from the injector pump and each cylinder is connected to that pressure line. Common rail uses a computer to decide when to electrically open an injector's solenoid valve, so to communicate with the computer each injector will also have a signal wire connected to it.

Oh, again, don't be confused by wires to the glow plugs. Depending on the model of engine there may or may not be a glow plug and associated wire for each cylinder - the glow plug circuit is the same for both mechanically injected engines or common rail type. Not all engines have glow plugs.

The listening for a knock is the same for mechanical or common rail diesel. But for common rail type you don't have to loosen a nut to keep the injector from firing, you just unplug the signal wire for that injector.

There is one other way "old mechanic's trick" to keep a cylinder from firing. You can take off the valve cover and while the engine is running at as slow of an idle as you can get, you can slide a feeler gauge that is a bit thicker than your normal valve clearance right where you measure the valve clearance - which is usually between the rocker arm and the EXHAUST valve stem. This holds the exhaust valve open by a few thousandths of an inch - don't use more than .005" extra thickness... what you want is just barely enough to make it stop firing on that cylinder. You don't want to force the valve head to hit the piston... As you do this, that cylinder is still getting injected with fuel, but it cannot fire because holding the exhaust valve open that much keeps it from compressing. It's like you had a cylinder-selectable compression release. Instead of firing, that cylinder goes "phut, phut...."
Don't do it for more than a few strokes and listen for changes in the knock as before. You won't hurt anything if careful.

There used to be go/no go feeler gauge sets made with extra long long feeler gauges that were real good for doing this test. But you can stack some feeler gauges together if you are careful. The trick is in sliding the gauges into that gap while the engine is running. It's a knack.

Lastly, an injector not working right should cause that cylinder to run differently from the others... but end cylinders run differently anyway even when everything is right. So temperature is harder to figure out. I've never done this, but I'd look with a thermal imaging gun right at where each cylinder's exhaust enters the exhaust manifold. Before thermal imaging guns, we used a set of colored chalk marks that were heat sensitive to see if the manifold or head had "hot spots". Then we would debate whether or not we had learned anything, and if so..... what it might be.*

Or as Click and Clack used to say, "Do two mechanics who don't know what they are talking about know more or know less than one mechanic that doesn't know what he is talking about?

That part hasn't changed, check aviation supply for the temperature-sensitive chalk. It works best on air-cooled radials. Less well on tractors...
Good luck,
rScotty

 

[jshwhite]

Thanks for all the help and ideas. I'll listen around with the stethoscope and do the temperature readings first and maybe it will be obvious. If not, I'll check the injectors.

rScotty, really appreciate the detailed explanations! Like I said in the OP, I have a lot of repair/mechanical experience, but haven't done much internal diesel engine work, so I really appreciate the help. Yes, I can drop the loader and take the hood off pretty easily, so it makes it a lot nicer to get to the engine. This one is mechanical injection - 4 lines from the pump going to the 4 injectors.

Will run tests and report back...

 

[rScotty]

Thanks for all the help and ideas. I'll listen around with the stethoscope and do the temperature readings first and maybe it will be obvious. If not, I'll check the injectors.

rScotty, really appreciate the detailed explanations! Like I said in the OP, I have a lot of repair/mechanical experience, but haven't done much internal diesel engine work, so I really appreciate the help. Yes, I can drop the loader and take the hood off pretty easily, so it makes it a lot nicer to get to the engine. This one is mechanical injection - 4 lines from the pump going to the 4 injectors.

Will run tests and report back...

That's what I would do. Try the simplest tests first. Nice that it has mechanical injection.
If you think you may pull an injector, don't beat it up; get an injector puller or make one. Check before pulling if there is anything like a ring or metal sealing washer to be replaced when you put the injector back in.

I was thinking about yours and mine (same engine) and how I really ought to set my valves this fall....when it occured to me that there is one scenerio where your noise could be valve lash. I've heard that some engine manufacturers are now installing valves by just grinding to fit without a final lap & leak test for high spots. With that shortcut, what can happen is a valve will quickly pound down the high spot ( in a few hundred hours) which reduces the normal clearance to the rocker. It may still close properly during the compression stroke, but it is held slightly open during part of the cam cycle by the lack of clearance. Holding open for a few extra degrees can allows carbon to build up on the valve stem - espeically with the smoky "interim Tier IV engines" and that sticky carbon on the valve stem can cause a knocking sound too.

All of that means that after your tests, I think you should check the valve clearances regardless. You are coming up on time to check them anyway. The operator's manual has a good write up on setting the valves. Rather than using flywheel TDC marks. I set valves for each cylinder by rotating the engine in the normal direction and follow the old adage : Set the intake when the exhaust is just starting to open, and set the exhaust when intake has just closed.
Messicks has valve cover gaskets - I keep a spare one of those.
rScotty

 

[jshwhite]

Ok, stethoscope didn't help me any. Exhaust temps seem pretty consistent, variance of 20 degrees, but could be inacuracy in measurement. I cracked each line for the injectors, it dropped the rpm for each one, but didn't affect the knock at all.

So...valve lash next. My owners manual just says go to the stealership. No thanks. Anyone have the spec for that? L4740HST. The manual says it's a V2403-M-E2 engine.

Here's something else to throw in the mix. I kinda thought so before, and now that the exhaust leak is fixed I'm sure of it - the knock is much more noticable once the engine is hot.

 

[rScotty]

Ok, stethoscope didn't help me any. Exhaust temps seem pretty consistent, variance of 20 degrees, but could be inacuracy in measurement. I cracked each line for the injectors, it dropped the rpm for each one, but didn't affect the knock at all.

So...valve lash next. My owners manual just says go to the stealership. No thanks. Anyone have the spec for that? L4740HST. The manual says it's a V2403-M-E2 engine.

Here's something else to throw in the mix. I kinda thought so before, and now that the exhaust leak is fixed I'm sure of it - the knock is much more noticable once the engine is hot.

OK. Not surprised with the stethoscope and temp checks. I've not had good luck with those tests unless the problem was so obvious that it couldn't be missed anyway.
That's actually good news, since the knock is now pointing more and more at the valve train - especially with knocking increasing when hot.

I checked, and my operator manual says the same as yours about checking valves. So the complete procedure is in the Service Manual. Do you have a Service Manual or access?

The M59 version of that engine is the is the "V2403-M-TE3-TLB1 with turbo and EGR". That's straight from the operator manual.
I'm wondering if yours has the EGR valve.

Valve clearance on these engines is set with a very standard fashion for pushrod overhead valve engines with solid lifters & pushrods. Same as any old gas engine. There is a threaded adjuster and locknut on the pushrod end of the rocker; the other end of the rocker bears on the end of the valve and is where the clearance is measured. There are valve cap, but they are trapped within the clearance and should be stable. Basically standard threaded adjuster.

If you can't confidently find TDC of the compression stroke for each cylinder - which is the setting location Kubota prefers - by rotating the crankshaft from the fornt, do it the way I described previously: Rather than flywheel marks I prefer to set by rotating the engine in the normal direction and follow the old adage : For each cylinder, set the intake valve when the exhaust valve for that cylinder is just starting to open, and set the exhaust valve clearance when that cylinder's intake valve has just closed. Then go to the next cylinder and set do the same for that cylinder until you've done them all. Then go back through and check them. Yes, it is OK to rock the crankshaft back and forth to make sure you have the right spot.

Do it with the engine cold. For the M59 version, the IN & EX valve-to-rocker have the same clearance: (.18mm to .22 mm = approx. .007" to .009" clearance). I don't see why yours would be any different.

When an engine with several hundred hours has settled into a valve clearance within .001" of those numbers i.e. from .006" to .010") then I personally don't mess with them. That's good enough for me and experience has taught me that leaving them alone is better than than trying to change where they want to run.

Safety....I'd probably crack the injector nuts just to make sure that it couldn't fire while rotating the crank.

You can reuse the rocker cover gasket if you take it off carefully. Wipe and clean the gasket surface but leave it in place. Now paint it with a thin but very even coat with a good quality high heat silicone sealer (permatex type). You can smooth silicon sealer with a clean wet finger. Spit works well. Let the sealer FULLY CURE and then lightly grease it before assembling. Now you have a reusable gasket with a heat resistant rubber coating.
Good luck,
rScotty

 

[jshwhite]

OK. Not surprised with the stethoscope and temp checks. I've not had good luck with those tests unless the problem was so obvious that it couldn't be missed anyway.
That's actually good news, since the knock is now pointing more and more at the valve train - especially with knocking increasing when hot.

I checked, and my operator manual says the same as yours about checking valves. So the complete procedure is in the Service Manual. Do you have a Service Manual or access?

The M59 version of that engine is the is the "V2403-M-TE3-TLB1 with turbo and EGR". That's straight from the operator manual.
I'm wondering if yours has the EGR valve.

Valve clearance on these engines is set with a very standard fashion for pushrod overhead valve engines with solid lifters & pushrods. Same as any old gas engine. There is a threaded adjuster and locknut on the pushrod end of the rocker; the other end of the rocker bears on the end of the valve and is where the clearance is measured. There are no shims or valve caps. Just the simple threaded adjuster.

If you can't confidently find TDC of the compression stroke for each cylinder - which is the setting location Kubota prefers - by rotating the crankshaft from the fornt, do it the way I described previously: Rather than flywheel marks I prefer to set by rotating the engine in the normal direction and follow the old adage : For each cylinder, set the intake valve when the exhaust valve for that cylinder is just starting to open, and set the exhaust valve clearance when that cylinder's intake valve has just closed. Then go to the next cylinder and set do the same for that cylinder until you've done them all. Then go back through and check them. Yes, it is OK to rock the crankshaft back and forth to make sure you have the right spot.

Do it with the engine cold. For the M59 version, the IN & EX valve-to-rocker have the same clearance: (.18mm to .22 mm = approx. .007" to .009" clearance). I don't see why yours would be any different.

When an engine with several hundred hours has settled into a valve clearance within .001" of those numbers i.e. from .006" to .010") then I personally don't mess with them. That's good enough for me and experience has taught me that leaving them alone is better than than trying to change where they want to run.

Safety....I'd probably crack the injector nuts just to make sure that it couldn't fire while rotating the crank.

You can reuse the rocker cover gasket if you take it off carefully. Wipe and clean the gasket surface but leave it in place. Now paint it with a thin but very even coat with a good quality high heat silicone sealer (permatex type). You can smooth silicon sealer with a clean wet finger. Spit works well. Let the sealer FULLY CURE and then lightly grease it before assembling. Now you have a reusable gasket with a heat resistant rubber coating.
Good luck,
rScotty

I think that V2403 engine has a lot of variants. This one is non turbo, non egr. Just plain old air-filter-to-manifold naturally-aspirated.

Yes, finding TDC seems a little difficult. I can't find any access hole or anything that would let you see a tick mark on the flywheel. Am I missing something? Or is it on the crank pulley? The method you describe seems simple enough though.

I'm calling it a day here, but will see if I can get some time to work on this tomorrow afternoon.

 

[rScotty]

I think that V2403 engine has a lot of variants. This one is non turbo, non egr. Just plain old air-filter-to-manifold naturally-aspirated.

Yes, finding TDC seems a little difficult. I can't find any access hole or anything that would let you see a tick mark on the flywheel. Am I missing something? Or is it on the crank pulley? The method you describe seems simple enough though.

I'm calling it a day here, but will see if I can get some time to work on this tomorrow afternoon.

OK, I did some more looking. The Service Manual says to remove the injectors.... that makes sense. It refers to a timing window cover on the clutch cover that looks like it might help.
And there are valve stem caps - I missed that before and just edited the previous posting. But they shouldn't change anything.
rScotty

 

[jshwhite]

OK, I did some more looking. The Service Manual says to remove the injectors.... that makes sense. It refers to a timing window cover on the clutch cover that looks like it might help.
And there are valve stem caps - I missed that before and just edited the previous posting. But they shouldn't change anything.
rScotty

Injector removal would be for the purpose of identifying TDC, correct? So theoretically not necessary if you use the method of watching the valves as you described?

 

[rScotty]

I think that removing the injectors is so that you can rotate the crank without danger of it firing, but more so without having to fight the compression to get to TDC.
Look for a personal message where I've tried to copy off a diagram that shows how to set them with only having to rotate one 360 degree turn.
rScotty

 

[Leejohn]

I think you are going to find that the timing marks are under the loader mounting bracket.