EuclidApparently, the system takes 1,000 photos of each passing railcar, and then “reads” those photos to find various problems.
These type detectors on other railroads also have the "normal" detection sensors (hot journal, dragging equipment, wheel impact, etc) in addition to cameras or other visual sensors. I would imagine that the NS's do also, they just weren't mentioned because it wasn't sexy new technology, so wasn't part of the press release.
Dave H. Painted side goes up. My website : wnbranch.com
EuclidSo this is only a visual inspection as the inspector in the link below is doing.
Yes and no.
There are lots of things that a yard inspection won't catch because a yard inspection is done in a yard, with the car stationary and cold.
On the other hand there are lots of things that will only be caught with the car moving and there are defects that can happen after the car departs a yard (hot bearings, truck hunting, shifted loads, dragging equipment, etc.)
CatFoodFlambeAll the technology in the world is useless if NS doesn't have enough employees to act on the information provided.
Doesn't help the actual bad-bearing detection much, if at all -- but it does promise the necessary quick and positive response once they actually provide failing-bearing detection that works.
All the technology in the world is useless if NS doesn't have enough employees to act on the information provided.
Euclidso I am wondering how it would have changed the outcome of the overheated bearing,
Probably not at all since visual band cameras won't detect roller bearing failures. They will detect other stuff, but not failing bearings.
dehusman Euclid Replacing those current detectors with more accurate and capable detectors, although spaced much further apart, seems to focus on a non-problem while ignoring the real problem of too much time and distance between detector inspections. Not all detectors detect the same things, they may detect different defects with different failure modes and different rates of development. There are some defects that may be fine testing once a trip and there may be other defects that need to be tested every 10-20 miles. For example wide load detectors are typically only installed ahead of restricted clearance points.
Euclid Replacing those current detectors with more accurate and capable detectors, although spaced much further apart, seems to focus on a non-problem while ignoring the real problem of too much time and distance between detector inspections.
Not all detectors detect the same things, they may detect different defects with different failure modes and different rates of development. There are some defects that may be fine testing once a trip and there may be other defects that need to be tested every 10-20 miles. For example wide load detectors are typically only installed ahead of restricted clearance points.
Currently defect detectors do not interact with PTC. At most would be if a detector is linked to a hold signal that needs to be manually cleared if a defect is detected. Other than that, PTC does not react to a detector alarm.
Not that it couldn't be integrated in the future.
Jeff
EuclidReplacing those current detectors with more accurate and capable detectors, although spaced much further apart, seems to focus on a non-problem while ignoring the real problem of too much time and distance between detector inspections.
blue streak 1This question is not about flat spots that all posters have assumed. Ot can not be detected of a crack from axel outward to wheel tread.
Those are tested by ultrasonic detectors that "ping" the wheels and if they "ring" the wheel is good, if it doesn't the wheel may be cracked. The UP N Platte yard is equipped with one of those that tests inbound coal trains. It is affectionally known as the "crackhouse".
blue streak 1 blue streak 1 One problem that am not aware is being addressed by all of these detection systems. That is partial wheel failures. Some wheels have a diameter up to 42 inches. That means up to ~~ 131 inches of travel for one revolution. 36 inch wheel 113 inches of travel. It does not appear that there is any visual system that can survey a wheel for any partial failure or loss of mass. Am I missing something? This question is not about flat spots that all posters have assumed. Ot can not be detected of a crack from axel outward to wheel tread. There can be fractures on the wheel itself that cannot be detected by a wild detector. Although not as prevelant as flat spots there certainly have been instances.
blue streak 1 One problem that am not aware is being addressed by all of these detection systems. That is partial wheel failures. Some wheels have a diameter up to 42 inches. That means up to ~~ 131 inches of travel for one revolution. 36 inch wheel 113 inches of travel. It does not appear that there is any visual system that can survey a wheel for any partial failure or loss of mass. Am I missing something?
One problem that am not aware is being addressed by all of these detection systems. That is partial wheel failures. Some wheels have a diameter up to 42 inches. That means up to ~~ 131 inches of travel for one revolution. 36 inch wheel 113 inches of travel. It does not appear that there is any visual system that can survey a wheel for any partial failure or loss of mass. Am I missing something?
I believe the CSX super detector sites have high speed cameras looking at the axle wheel interface from their inside connection point - looking for cracks or other defects at that location of stress. NS and the other carriers may have the same detection systems in place.
At present CSX has their 'super detector' sites on the main routes into Rice Yard at Waycross, GA - one of CSX's main car repair terminals as well as a high volume hump yard. The super detector site also inspect the through trains that do not stop or work at Waycross.
Never too old to have a happy childhood!
dehusmanTree68With PTC, I suppose the capability exists to enforce such a stop, assuming good communications all along the data path...
Tree68With PTC, I suppose the capability exists to enforce such a stop, assuming good communications all along the data path...
tree68With PTC, I suppose the capability exists to enforce such a stop, assuming good communications all along the data path
PTC is irrelevant. Tains have been stopped by defect detectors automatically notifying the trains for the last 40 years.
EuclidQUESTION: When the system finds a problem, does it make the decision to stop the train?
Most of the newer systems I am familiar with the system tells the train to stop in most cases. Older legacy systems may send results to a central desk and they tell the train to stop.
If so, does the system stop the train?
Yes.
If that is the case, do the humans decide whether the system command to stop the train is correct?
Yes to the extent that the stop and the results of the stop are reviewed to determine if the stop was valid or not (was a defect found). If not then the the defect trigger conditions are validated to see if the they should be changed.
If the humans conclude that the stop command is incorrect, do they then intervene and overrule the system?
In the systems I am familiar with, yes, but not on a real time basis.
These detector arrays may or may not give an immediate alert to stop. I would guess they would if they detected a defect that required immediate attention. However, I think these are designed to catch equipment that is in the early pase of failure, something that can make it to the next point that has car men. That's assuming that they haven't cut off most of the car men and that someone doesn't try to "extend" the distance beyond the next repair point.
Broken wheels may set off a dragging equipment detector. When opearting on concrete ties and a visual inspection for dragging equipment doesn't turn up a defect, an audible inspection is required. The conductor places him/herself 20 axles ahead of the indicated axle, have the train pulled by 20 axles past the indicated axle, listening for any unusual sound from the wheels.
BaltACDThat is what Wheel Impact Load Detectors are for.
Anyone who's been trackside when a wheel with a flat spot is passing knows you can hear them from several cars away.
I've heard that an informal measure of the degree of a flat spot is if you can hear it from seven cars away, it's actionable. You won't find that in any rule books. The ultimate measure is a ruler.
One hundred thirty one inches is almost 11 feet. An auto rack (a common place to find flat spots) is 80+ feet - which means that in one car length, that flat spot will hit 7 or 8 times.
I'm sure the WILD detectors will sense such problems, even from the vantage point of a foot or so of actual detector.
As Balt points out, an out-of-balance wheel will also generate a certain amount of impact, especially at higher speeds. It's up to the engineers (design types, not locomotive) to develop the impact parameters that require action - something they likely have already done.
Larry Resident Microferroequinologist (at least at my house) Everyone goes home; Safety begins with you My Opinion. Standard Disclaimers Apply. No Expiration Date Come ride the rails with me! There's one thing about humility - the moment you think you've got it, you've lost it...
blue streak 1One problem that am not aware is being addressed by all of these detection systems. That is partial wheel failures. Some wheels have a diameter up to 42 inches. That means up to ~~ 131 inches of travel for one revolution. 36 inch wheel 113 inches of travel. It does not appear that there is any visual system that can survey a wheel for any partial failure or loss of mass. Am I missing something?
That is what Wheel Impact Load Detectors are for. A wheel that has lost mass will lose it from the rim/tread area and thus create a level of impact with every revolution of the wheel. WILD's also detect slid flat wheels as their flat spots generate impact passing through the detector.
I am guessing that WILD's are a part of these 'super detector/inspection' sites.
Sensor delivers a' problem alert' > [ the signal delivers the alert to a 'point of notice']> The ALERT is delivered to the Enginer of the affected train.. The Engineer makes an 'action' decision. At that point,Physics of the envolved mechanisms take over, and train speed and time become key issues. Train is stopped; with or without incident. (?)
An oversimplied example(?) , but yoiu can get the idea.
If there is a question, we have to call the dispatcher who then contacts the bearing desk-the "back room" to check the detector.
But with going to talk on defect only, with some long trains at some detectors you might not hear a tone or exit message. The detectors should give an indication that a detector, at least the full fledged defect detectors, has been tripped to the dispatcher. They used to do so, but I'm not so sure they still do since they now have the "back room."
The old detectors on some lines that only talked on defect, no entrance or exit message, were tied into the signal system. The system would hold a controlled signal at stop until manually cleared by the dispatcher if a defect or detector malfunction was detected. There were many times when a detector failed to give a tone and announce a defect but the dispatcher would contact the train before clearing the hold signal. That signal tie-in has been removed.
We can tone a repeat message on the detector.
Or if that doesn't work, you tone up the detector helpdesk that will look it up for you.
It's been fun. But it isn't much fun anymore. Signing off for now.
The opinions expressed here represent my own and not those of my employer, any other railroad, company, or person.t fun any
Paul of Covington jeffhergert And with 2 or 3 mile long trains there are a few detectors that are hard to hear any exit message. Is there any way to send an inquiry to the detector such as requesting a repeat of last message? Or can you contact dispatcher and get info?
jeffhergert And with 2 or 3 mile long trains there are a few detectors that are hard to hear any exit message.
Is there any way to send an inquiry to the detector such as requesting a repeat of last message? Or can you contact dispatcher and get info?
Signal Maintainers can inquire through a Detector's history logs. That I am aware of the History Log must be accessed On Site.
Train Dispatcher radio is configured that the dispatcher, if listening, is only listening through one of multiple radio transmitters on his territory. These transmitters have an effective radius of 10 to 15 miles. In addition to the Road Channel the Dispatcher radio consoles have access to the Dispatchers Channel and the MofW Channel. A 100 mile long segment of railroad, like the RF&P Subdivison between Washington and Richmond will have between 8 and 10 radio transmitter locations.
Defect Detectors broadcast their reports over the Road Channel for the territory. With longer trains, it may be necessary to increase the broadcast strength of the defect detectors radios. I don't know what their broadcast strength is, however, I suspect is in the neighborhood of what the allowed strength for Citizen Band Radios is - which I think is on the order of 5 watts.
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"A stranger's just a friend you ain't met yet." --- Dave Gardner
One example of a reason not to automatically stop a train - several trestles have burned because a car with a heat issue was stopped atop them. Leaving the human element in the mix is important.
We have combination defect detectors about every 20 +/- miles. These look for hot bearings, dragging equipment, and hot wheels. These detectors now only give an entrance message and then talk on defect only.
We have dragging equipment detectors that talk on defect only at many intermediate block signals where there are concrete ties.
Hot wheels are the only alarm that may not require an immediate inspection. It's allowed to run 30mph to the next detector. A second alarm on the same axle requires inspection. The car can't pass through a through truss bridge. There are places because of this a train must stop and inspect before reaching the bridge. Generally if it's the first detector after picking up cars, it's probably a missed handbrake. If it's gone over a few detectors before an alarm, it might be sticking brakes. Make a heavy reduction and release on the air brake and go 30 to the next detector. Usually a hot wheel won't set off the defect tone, but alerts the bearing desk, who alerts the dispatcher, who alerts us.
For the combination detectors, if a defect tone and message "defect detected" is given, we are to clear the detector, get the exit message indicating defect and location and stop and inspect. If there is the tone, but no other message, inspect the entire train.
For a dragging equipment detector that gives a defect tone, immediately stop and inspect. If no specific axle is given, inspect the entire train.
For the detectors that only give an entrance message and talk on defect only, KEY trains must stop and inspect if no entrance message is received.
I don't like the change to entrance/talk on defect only. I feel it conditions crews to not hear any possible tone or message at the end of a train. And with 2 or 3 mile long trains there are a few detectors that are hard to hear any exit message.
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