I haven't done one of these in ages, and someone was asking if I had any more to share - so here's a quick and easy one I whipped up. This is railroading 101, so it won't take a second of thought for anyone that does this for a living - so let the ones that weren't crazy enough to hire in this industry have a shot at it.
Here's the situation: You're on this local that has to serve this industry. You have 2 engines and 5 inbound loads. You need to spot the inbound loads to the inbound tracks (any track will do), then grab the outbounds to go back from where you came (towards the right side of the screen). Here's the kicker - that "tail track"? Only holds one engine. Sure, you could split your power and go push-pull back to the yard, but you have to wait for a train to pass by on the main before you can leave the industry so you do have some time to kill. Plus if you get both your engines on the right side of those cars, it will save you a couple moves back in the yard. A simple basic move... but how do you do it?
I have another one to draw up if anyone is interested.
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
Randy Vos
"Ever have one of those days where you couldn't hit the ground with your hat??" - Waylon Jennings
"May the Lord take a liking to you and blow you up, real good" - SCTV
i would set those 5 loads in along with the second engine as they show in the picture, back out with the lead engine on the lead, then pull ahead and run around the mtys, couple up, back up enough the get the engine thats with the loads on the headend of the train back out on the main when you can and leave
OK, I'll take a stab at it.
Spot inbounds on inbound track.
Split power on runaround track.
Shove outbounds onto lead.
Re-hitch to locomotive on runaround track.
Hitch to outbounds and shove onto main.
Norm
fluff i would set those 5 loads in along with the second engine as they show in the picture, back out with the lead engine on the lead, then pull ahead and run around the mtys, couple up, back up enough the get the engine thats with the loads on the headend of the train back out on the main when you can and leave
Thanks to Chris / CopCarSS for my avatar.
I'd shove the in-bounds into their destination, leaving locomotive #72 sitting on the spur with the inbounds, then I'd use the run around with engine#45 to get to the far side of the outbounds, push them back to the lead, and then go back down onto the spur to pick up the other engine, then with #72 now the lead engine back out onto the lead, then to the main.
23 17 46 11
After you cleared the main do you need to realign the switch for the other train to pass?
You all pretty much got it. One or two of you maybe made yourself an extra move, but the basic gist was there. 100% all around.
Another easy one: On this local you have to serve this industry with both a facing and a trailing point switch. You have some new gray tank car loads* for them (all their tank cars on hand are empty and need to be pulled), plus two red boxcars loads for them. The customer has three empty (MT) boxcars to pull out, and one load that has to be placed back in the siding along with the new loads you brought in.
The green cars are for another customer down the line. When done, you need to have both the engines back on the west end.
*- tank car loads are non-hazardous, so no special placement rules apply.
Ed's description of handling the EOT sounds a lot simpler to me than the necessary shifting of a caboose would be.
Johnny
Ok here is my shot at this .. My lack of RR experience will shine through on this ..
Murphy Siding fluff i would set those 5 loads in along with the second engine as they show in the picture, back out with the lead engine on the lead, then pull ahead and run around the mtys, couple up, back up enough the get the engine thats with the loads on the headend of the train back out on the main when you can and leave If I don't see a picture, do I have to figure out how to do it in the dark? no, look at the picture from the 1st post
If I don't see a picture, do I have to figure out how to do it in the dark?
no, look at the picture from the 1st post
fluff Murphy Siding fluff i would set those 5 loads in along with the second engine as they show in the picture, back out with the lead engine on the lead, then pull ahead and run around the mtys, couple up, back up enough the get the engine thats with the loads on the headend of the train back out on the main when you can and leave If I don't see a picture, do I have to figure out how to do it in the dark? no, look at the picture from the 1st post
rdamon After you cleared the main do you need to realign the switch for the other train to pass?
I'll take a crack at the second one...
1. Engineer drops conductor off at the first main line switch and drags the rear up to him, he removes the EOT, and places it near the switch.
2. Engineer pulls ahead to clear the switch, conductor lines it for the boxcar siding, confirms it’s lined properly and no derails are in place, and then climbs the last car to ride back.
3. Engineer shoves back to just short of boxcars in siding, conductor dismounts, engineer couples to boxcars in siding, conductor releases brakes and climbs onto the last car.
4. Engineer pulls all cars from siding, stopping when last car has cleared switch.
5. Conductor relines switch for main, hangs the EOT on last car, and climbs back onto it.
6. Engineer shoves train back east until his engine is past both switches by at least four car lengths.
7. Conductor ties handbrakes on MTs, uncouples load pulled from siding from them, and climbs onto load.
8. Engineer pulls ahead until all cars are past the first switch, conductor dismounts and relines the switch for the boxcar siding, and climbs back onto the load.
9. Engineer shoves load back into siding, conductor dismounts and sets handbrake on load, uncouples load from MT ahead of it, then climbs onto MT
10.Engineer pulls train back out of siding, stopping when rear is clear of switch.
11.Conductor dismounts, lines switch back for the main, and climbs back on.
12.Engineer shoves back to just short of tied-down MTs, conductor dismounts, and engineer finishes shove, coupling to MTs.
13.Conductor calls for three-step, laces up the MTs, uncouples the left-most MT from the last two loads, and climbs onto the load ahead of the MT.
14.Repeat Steps 8 through 12, dropping the remaining boxcar loads in the siding.
15.Conductor again calls for three-step, laces MTs to green cars, and walks forward to engines, uncoupling 16 from tanks.
16.Engineer pulls ahead until 16 clears the first switch, and conductor lines it again for boxcar siding.
17.Engineer pulls into siding and conductor cuts off 16 and secures it.
18.Engineer pulls 54 back onto main and conductor relines switch for main.
19.Engineer backs east and couples 54 onto train, conductor walks back, uncouples last tank load from rest of train, and climbs on last tank.
20.Engineer pulls tanks west until they clear both switches, ties down engine, releases coupler on first tank, and dismounts and walks to 16. Meanwhile, conductor relines switch to boxcar siding.
21.Engineer pulls 16 out onto main and couples to rear of tank loads.
22.Engineer pulls tank loads until they clear the tank car siding switch, and conductor lines it for the siding, making sure there are no derails in place.
23.Conductor climbs on last tank and rides it up the siding, engineer stops short of coupling, conductor dismounts, and engineer completes shove to couple to MTs.
24.Conductor releases handbrakes on MTs and climbs on last MT.
25.Engineer pulls loads and MTs onto main, conductor relines switch for main and climbs back on last MT.
26.Engineer shoves MTs and loads to just short of 54, conductor dismounts, and engineer completes shove to couple MTs to 54.
27.Conductor walks back, uncouples loads from MTs, and climbs onto first load behind MTs.
28.Engineer pulls loads back until last one clears the tank car siding switch, conductor dismounts and relines switch for siding, then climbs back on.
29.Engineer shoves loads into siding.
30.Conductor sets handbrakes, uncouples engine, and climbs onto engine.
31.Engineer pulls engine out until it is just short of switch, and conductor dismounts and relines boxcar switch for siding.
32.Engineer pulls out of tank car siding and into boxcar siding, stops just inside of the siding and ties down 16.
33.Conductor relines both switches for the main, and both walk to 54 and the three MT tanks.
34.Conductor climbs onto the last tank and engineer shoves them back to just short of the rest of the train, conductor dismounts and engineer completes shove, coupling them up.
35.Conductor laces them up, walks forward to the engine, and uncouples it from the train.
36.Engineer pulls forward to clear the boxcar switch and conductor lines it for the siding again.
37.Engineer backs into siding and recouples engines together, conductor laces them up.
38.Engineer pulls out of siding and conductor relines it for the main.
39.Engineer backs east and couples to the train. Conductor laces it up and engineer sets the brakes.
40.Conductor does first half of a walk set and initial terminal air brake test while walking to the rear.
41.Conductor arms the EOT, closes the air valve on the car just ahead of the one with the EOT, has the engineer pop the EOT from the head end to test if it sets the emergency brakes, and gets 3 step and opens the air valve
42.Once he confirms the EOT works, the engineer sets the brakes again, and the conductor walks back to the head end on the opposite side of the train from the one he first walked, doing the rest of initial terminal brake test and car inspection on the way.
43.And away they go…
I know I'm leaving out details, but what's important is the sequence to reduce steps on the ground.
Brian (IA) http://blhanel.rrpicturearchives.net.
edblysardA winner….the rules require, at least the GCOR does, that a main line switch must be restored for “normal” movement .(lined and locked if so equipped) Even in CTC, there are still a lot of manual hand throw switches like this, so…the easiest way would be, on the initial shove back the engineer stops clear of the switch and lines/locks it for main line movement. If there had been no following or opposing movement, I would ask the dispatcher if I could leave it lined for the industry, which is allowable, but only with permission from the dispatcher or control point operator.
.
I like the references to the initial terminal test, including testing the EOT. However, both scenarios would require another test that hasn't been mentioned. Anyone know what that would be?
In CTC under GCOR, and I assume under other rule books too in some variant, if the main track's maximum speed is above 20 mph, the hand throw switch isn't equipped with an electric lock or there isn't a signal governing movement over the switch to the main track (what we call a "leaving signal" or what KP calls in his Sunset thread, an "entrance signal"), you can't clear up a train or engine. In those situations, you would have to leave the switch open.
Jeff
So what's the verdict, Zug? Am I off-base on anything?
I sometimes get the feeling that I'm persona-non-grata around here- the threads that I post in (which doesn't happen very often lately) tend to drop to the bottom of the list like a rock in a lake.
blhanel So what's the verdict, Zug? Am I off-base on anything? I sometimes get the feeling that I'm persona-non-grata around here- the threads that I post in (which doesn't happen very often lately) tend to drop to the bottom of the list like a rock in a lake.
I have an old saying: "there's a thousand ways to switch out a train, and they all suck!" But it is why we make the big (sic) bucks.
But yeah, you have a good handle on it. Switch out the boxes first, stash the trailing engine on the box track, have the hogger pull ahead, swap over to the other engine to do the tanks. There really is no correct answer. I did serve an industry like this once or twice on a local, hence where I came up with the idea - but the above is the way we did it. What's frustrating is the tank track was a fairly new spur. Why it was allowed to go in facing the opposite direction from their other track baffles me to this day.
zugmann I did serve an industry like this once or twice on a local, hence where I came up with the idea - but the above is the way we did it. What's frustrating is the tank track was a fairly new spur. Why it was allowed to go in facing the opposite direction from their other track baffles me to this day.
I did serve an industry like this once or twice on a local, hence where I came up with the idea - but the above is the way we did it. What's frustrating is the tank track was a fairly new spur. Why it was allowed to go in facing the opposite direction from their other track baffles me to this day.
Without knowing more, what did the other end of the spur dead-end into? This is where the trainmaster usually speaks up and demands an explanation as to why there isn't a run-around track or some other solution. Is there some weird geometry or other constraint out there? (Twice in my career I've seen industries build new facilities where I've had to tell them that I couldn't get there from the existing railroad economically. One facility sued the building architect & engineer. (They wound up knocking a third of that building down. The other switched to trucks and died inside of a year. That building, with a huge warehouse, is burning a hole in Louisiana Pacific Gypsum's annual budget as it sits empty with no buyer in sight to repurpose the building and site. A competing railroad with switching rights told them the same sad story within a week of us.)
There's a response for you in your PM box, MC.
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