Operator_Volvo
New Member
Hi, I have a problem with my Volvo EC210BLC 2002 left track is slower than the right. But if I tilt the right joystick the speed becomes good again. Does anyone have any advice? Thanks
I would say you have a pump issue.Hi, I have a problem with my Volvo EC210BLC 2002 left track is slower than the right. But if I tilt the right joystick the speed becomes good again. Does anyone have any advice? Thanks
I agree with you to start isolating this problem at undercarriage. The upper you go the things get more complicated. To me it just seems this is a hydraulic problem nit mechanical. Activating the digging function making an excavator tracking straight I would personally start examining at the pump and then to the bottom. It sounds cliche to blame the pump for some weak function but in this case thats where I would start.When you pull the function on the right stick, you are merging flows which equalizer pressure and flow from both pumps into a common feed.
Let's back up and look at things. Is your track sag set correctly? Are your tracks seized up? In other words, do you have frozen pins? Are you in sand, gravel, myd or dirt. This goes back to track sag. What do your sprockets and rollers look like? Any seized? What about the main idler? Is the axle pushing through the wheel, or is the bearing still good?
With the basic inspection out of the way, get you a clean bucket. Spin down your case drain filter. It's the big fat one in the pump room. Pour the contents out into the bucket. You're looking for golden glitter. We hope not to find any. If no glitter, spin it back up or a new one, whichever. Measure your cycle times. Full throttle. Write down all your results. Measure each 3x with the oil at operating temperature. Boom up, boom down, arm in, arm out, and finally bucket curl, bucket dump. It's a PITA, I know, but it helps avoid spending ridiculous money on unneeded parts and costs you nothing but time and fuel so far. Good luck.
I am not disagreeing with @funwithfuel !Everyone just so quick to blame pumps!!! That’s how things get very expensive, very quick, and most of the times for nothing.
Funwithfuel is the best guy when it comes to Volvos.
My suggestion - get your undercarriage checked out. Rollers and track tension.
If that one checks out - actually measure the pressure differential on stalled motors, and if pressure on bad side is low a start with “center pivot” or “rotary manifold”. Just start measuring pressure with track motor connected , then plugged hoses at the motor, and measure pressure, then move out to the upper structure and plug hoses right before rotational manifold, and measure pressure then. See if there is the difference. If you see pressure increase only after you disconnected the motor and plugged the hoses - your problem is the motor.
Just my 2 cents.

Do you know how is different confluences set up inside that control valve? I do not know exactly. I have pretty good idea how it is done in Kobelco, JD/Hitachi, I know that CAT ones set up little different.I am not disagreeing with @funwithfuel !
Getting an undercarriage checked out is basically a daily check.
THAT IS WITHOUT A DOUBT SOMETHING SOMEONE SHOULD DO BEFORE EVEN MAKING ANY KIND OF QUESTION ABOUT HEAVY EQUIPMENT.
And for your two cents worth of opinion:
The poster of this thread stated that activating a digging function is making an excavator track straight which is otherwise not. Please tell me how that correlates to “rollers and track tension”.
I never said that someone should straight away tear down the pump. But since time is also money why not just flip the pump outputs. Literally takes five minutes and see if the other track gets weak or any other function. Also this approach is mentioned in most of the heavy equipment workshops manuals. I don’t know why someone would start inspecting a problem like that bellow the rotary manifold. Maybe some mobile mechanic that likes to put his hours up with some oblivious poor soul owner?
Maybe check and try and follow this procedure @TVA :
See how checking the mechanical properties of an undercarriage is at the top since it’s a daily check and inspecting the travel motor is at the bottom?
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I am not saying things like you and @funwithfuel said should be missed out. I was just also trying to state out procedures someone without experience might miss out but would save a lot of time with the right approach from the start.
Dude I didn’t mean to hurt your feelings. In the first reply I said that the pump might be the problem, but I damn well explained where I was coming from. Even @funwithfuel gave me an upvote on it.Do you know how is different confluences set up inside that control valve? I do not know exactly. I have pretty good idea how it is done in Kobelco, JD/Hitachi, I know that CAT ones set up little different.
Heck - I don’t even know at this point what kind of displacement control set up on those pumps - NFC or PFC!
I only saw that those pumps in Volvos are overwhelmingly Kawasaki K3Vs.
Thats where and when Funwithfuel expertise comes in, because he dealt with Volvos extensively.
Last time I’ve dealt wit Hyundai/Doosan was about 5 years ago, and I’m not sure Volvo still retains similar topology in the DCV.
And no - you didn’t say anything about any procedures, when I called you out - you just jumped straight to the pump blaming!
You came up with all of that just now!
And another thing: flow charts are very good way to dupe you in to wasting your time and money for nothing!
I’ve learned that a hard way, whole lot of people here will tell you the same.
I use flow charts every time, but not as “set in stone” rule, but as “general guidance”, and double check it all the time.
The best thing is to have hydraulic diagram, use your brain and start testing, before jumpy to conclusions.
I’ve seen many times when main pumps on the excavators were rebuilt or replaced, because it was “bogging the engine down” which is dumbest thing in the world. Just to keep having the same problems with the new pumps, because problem wasn’t in the pump in the first place.
You don’t check travel with both pumps in confluence, because it’s combines the flows of both pumps, and more flow can compensate for let’s say one of the motors bypassing ( lower volumetric efficiency), and even out the speed on both tracks ( pass of least resistance).
You check them in the “straight travel”, when each pump is responsible for each track.
At this point we don’t even know if the slow track is slow both directions, or only one, maybe port relief is at fault, or spools pilot land is scratched up, bypassing the oil, and not shifting spool fully.
Are you sure anyone doing undercarriage inspections daily?!?! With most of my customers - it’s a huge “HECK NO”!!! They don’t check crap, until something falls off!
There’s whole lot more procedures need to be done, before calling it $8000-$10000 pumps
I’m done.Guys, we need to chill, we are not doing any good bickering. We are gonna get banned for shenanigans and the thread will be closed.
Say it with me .....Goosefrabah.
No, unfortunately on the B she's negative control, very limited monitoring. Only oil temp and pump controllers based on engine load vs pressure sensors. Very early, very simple.Is there any separate pressure sensor on travel control circuits, that “report” to the controller?
Are those pumps PFC controlled with pressure sensors on discharge ports?