DC motor rotor failure
DC motor rotor failure
(OP)
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RE: DC motor rotor failure
www.eldvigateli.com
RE: DC motor rotor failure
probable cause(s) of the commutator bar edge burning. Many charts published on the Internet
provide insight as to what causes this condition.
Random Google Image URL here for example:
https://www.google.com/search?q=commutator+bar+edg...
Understanding the bar edge burning is a "guess" until the apparatus is fully dismantled,
and the various aspects of the motor are tested/inspected.
There is likely a failed coil group on the armature. How, or why the coil group (may have) failed
is another question to ask once the armature can be fully viewed/inspected.
Additional photos of the actual failed component if they can be made available will
be useful in answering this post.
Always enjoying the forum,
John
RE: DC motor rotor failure
Thank you for your answer and the information!
When I searched as you told me I found that the possible problems are 2. Please check the link bellow:
http://www.gulfelectroquip.com/technical.php?techn...
I am confused which of them is my case (please if somebody have the knowlage/information to share it)
The first option is:
BAR EDGE BURNING: Results from poor commutation. Check 1.) that the brush grade has adequate voltage drop, 2.) that the brushes are properly set on neutral, and 3.) that the interpole strength is correct.
It looks like my case because the burning is only in the edges of the slots.
But on this picture the edge burning is at all the bars, in my case it is 1:4 in every fourth bar.
The second option is:
SLOT BAR MARKING: Results from a fault in the armature windings. The pattern relates to the number of conductors per slot.
It looks like my case because the burning is in pattern simillar to the burning of my comutator.
But on this picture the bars are whole burned, in my case they are "edge burning".
Thank you for your opinions!
Regards,
Teodor
www.eldvigateli.com
RE: DC motor rotor failure
John and others here know a lot more about dc motors than me, I can guarantee. Wise advice to not jump to conclusions without careful investigation.
Next logical step might be bar to bar resistance checks to see if armature winding checks out.
=====================================
(2B)+(2B)' ?
RE: DC motor rotor failure
Pin pointing the true cause of Bar Edge Burning is problematic because more than one
reason or scenario can create the same/identical visual appearance on the commutator.
In studying the original posted photo again... I'm leaning toward a new "armchair" theory
of "High Mica" in the commutator slots causing [brush hop].
Why?
Because the white appearance within the commutator slots... to the left,
and right... via the camera angle capturing the original photo posted...
denotes mica material not fully removed during a previous repair process.
Also, the center [brush set] ~~burning pattern~~ is slightly different in
overlapping a second commutator bar... "possibly" authenticating high mica as the culprit.
Direct Current Motors with all their nuances' are hearty machines.
I'll hazard another guess that the motor depicted in this post is possibly still running despite it being labeled a "failure".
John
RE: DC motor rotor failure
Possible check.
I would use a variation of an electrical setup procedure.
I will describe the whole procedure as it may be helpful when you set up the machine after repairs but you will not need the first part of the procedure at this point.
Step 1;
A> Disconnect one or both leads from the brush-gear.
B> Connect an AC voltmeter across the brush-gear.
C> Disconnect the field supply conductors.
D> Apply approximately 120 Volts AC to the field.
E> Shift the brush-gear until the nul point is found. (Zero volts or the center of the movement that gives zero volts.)
You may use this procedure to adjust the brush-gear if it has been moved during repairs. You may have to do a fine adjustment when the machine is running under load but this will give a setting that is generally safe to start.
To check for armature faults:
A> Disconnect one or both leads from the brush-gear.
B> Connect an AC voltmeter across the brush-gear.
C> Disconnect the field supply conductors.
D> Apply approximately 120 Volts AC to the field.
E> Turn the machine shaft and watch the voltmeter.
The voltmeter should read zero or close to zero. DON'T adjust the brush-gear on a machine that has been commutating well.
If the voltage at the brushes varies as the armature is rotated this is a dependable indication of an armature fault.
Let us know what you find.
Bill
--------------------
"Why not the best?"
Jimmy Carter
RE: DC motor rotor failure
Mark and shift brush holder ring out of neutral point. Take a 12 volt battery charger and flash A1 and A2. The armature should "kick" in the same direction that you shifted the brush ring. If it kicks in the opposite rotation, switch the brush holder leads.
RE: DC motor rotor failure
RE: DC motor rotor failure
That, in its turn, indicates that there was a problem before and that that problem is still there. Overload (rhatcher) seems possible. I would take the motor to the shop and have a good look at the rotor. Also check excitation and armature current when running.
Gunnar Englund
www.gke.org
--------------------------------------
Half full - Half empty? I don't mind. It's what in it that counts.
RE: DC motor rotor failure
RE: DC motor rotor failure
We can have manny sources for this problem, so is important more information about the motor perfomance.
If the mottor is performing without high armature current and with excesive sparking the causes coul be:
1. Someone replace the brushes?
- Wrong Electrical adjusment (neutral point offset)
- Wrong brush grade
- Light brush pressure
2. Others?
- Vibration
- High Mica
- Contamination
3. Machine is not working proper drawning high armature current?
- Armature winding fault
Pleae verify brush spring pressure, brush grade, neutral point, vibration levels, room contamination(also inlet air taked from extrenalfan) and mica height.
If all this point are find, verify if armature winding is shorted.
Regards
Carlos
RE: DC motor rotor failure
Thank you for all your answers!
I am not replying yet, because I havent contacted the persons who are working with the motor yet.
As soon as they answer to my (your) questions I will post all the info for the motor here.
Hope that you will be here again...
Regards!
www.eldvigateli.com
RE: DC motor rotor failure
Today I talked with the guys who use the motor.
Exactly as @John said "the motor is still running despite it being labeled a "failure".|!
The motor is just getting very hot >80oC after 1-2 hours of work, that is "the only reason" why it was bringed in the repair shop.
Good commutation with minimum sparking between the brushes, no noise, vibration or anything else.
I am ready to answer every your question to find the cause of the problem and I will keep you informed with everything what is happening with it.
Thank you in advance for your help!
www.eldvigateli.com
RE: DC motor rotor failure
Have you carried out a drop test on said armature yet?
RE: DC motor rotor failure
Isnt the growler test the same?
www.eldvigateli.com
RE: DC motor rotor failure
We did all the things you suggested in this post, even more - setting the neutral, the brush-holder height, the mica, ordered original brushes from the manufacturer, dynamic balancing and etc...
The motor worked fine for a month or this is what was told to us
Yesterday they called saying that the motor failed.
The excitation winding shorted to ground.
The brushes were unequally weared and one of them is even missing.
Please check the photos and tell me what do you think
www.eldvigateli.com
RE: DC motor rotor failure
Molten tin indicated overload already in the January 8 picture. What is the protection set at? What is the namplate current of the machine? Sufficient air? Air flow switch?
"Pattern reading" is a popular pass-time. But measurements and examination is better. Is there excessive ripple in the armature current?
Gunnar Englund
www.gke.org
--------------------------------------
Half full - Half empty? I don't mind. It's what in it that counts.
RE: DC motor rotor failure
[The commutator photo shown in the original post with this thread appears to have
been TIG Welded eliminating any molten tin/slash solder splatter theory.]
In looking at all the photos posted, and looking at them again...
I'm going to Call-a-Bluff, and claim the brushes were never replaced.
I'm also guessing... the End User opted to go with the carbon brush situation...
hoping for the best, and ended up with what we're reading about here.
The heavy groove in the commutator surface nearest the riser is from the brush length reaching its useful life,
being severed, and the brush shunt lead serving as the brush connection until it quit.
As for the shunt winding 'going-to-ground'?
That's unrelated to the brush wear shown in the photos, and another issue.
Always Enjoying this Forum,
John
RE: DC motor rotor failure
dArsonval,
If I understand correct your english you doubt that the brushes were replaced?
If so the brushes were replaced before 1 month with original brushes sent from the manufacturer (firstly the motor was with EG283 then with EG571)
"molten tin/slash solder splatter theory" ? Do you mean that the commutator is not welded correctly and this can cause the problem?
Let me clear it little bit more...
The rotor was rewinded somewhere before and the motor was delivered to us in the condition from the first photos, saying that it is getting too hot.
Then it worked for a month when we received it in the conditon from the second portion of photos.
Actually my question are:
Is it possible this to be caused by wrong rotor/armature connection or rewinding?
If so how to know it? If the winding is wrong is it possible to find the correct winding diagram?
RE: DC motor rotor failure
Why was the brush grade changed from 283 to 571, has the maintenance regime altered to suit the possible change in brush wear?
What kind of application is the motor used?
Do you have any PCM (plant condition monitoring) on this motor?
RE: DC motor rotor failure
The brushes were changed because of the manufacturer send this brushes saying that they are the correct ones.
The machine is kind of extruder, where 4 motors work in parralel.
I am not sure what exactly do you mean by PCM, but even if it is available we cannot use it, because the motor failed, isnt it?
When we bringed the motor they said that it worked fine in the last month. Suddenly it started overheating and until the engineer go to see what is happaning, the excitation winding failed to ground and the motor was in the conditions from the photos.
www.eldvigateli.com
RE: DC motor rotor failure
I asked about ventilation earlier. Is the fan working, are the vent ducts in place, are louvers open, is there an air flow switch?
Gunnar Englund
www.gke.org
--------------------------------------
Half full - Half empty? I don't mind. It's what in it that counts.
RE: DC motor rotor failure
RE: DC motor rotor failure
Has the motor been running hot?
Are you sure you don't have an earthed interpole?