LOWERS QUADRANT SEMAPHORES

One interesting piece of trivia that I can add here, there WERE a few absolute lower-quadrant semaphores used in CTC territory on the SP.  There weren't many, or should I say they weren't used extensively, but there were a few in some of the earlier CTC installations.

Here is a shot of such an installation in Texas (scroll down to the second photo):

http://www.carrtracks.com/tx101.htm 

Regards,

Fred M. Cain

timz

(I see the definitions also include Approach Signal. I still say don't describe a signal as an Approach Signal -- it might be showing Approach, but it's better described as a home signal or distant signal or absolute signal or interlocking signal or something.)

We use the term approach signal for the last distant to a home/interlocking signal.  Signal 541 is the approach signal to CP-Whatever.  Not really that confusing. 

Our rulebooks don't really get into those nuances anymore.  I think those were left in the history books.  If the signal has a number plate and red it means this - if it doesn't have a number plate it means this. 

Traditionally, in the US anyway, block signals were called "home signals" or "distant signals". I'd say any signal that can display STOP is a home signal.

If it's an automatic signal (with a numberplate) showing red, and the train is allowed to pass it slowly, after stopping, it's not an absolute signal, but it's still a home signal.

Think most RR rulebooks included "home signal" in the section of definitions. Stop-and-proceed signals are included.

The 1960 SP rulebook has definitions for Home Signal and Distant Signal.

SPRulebook.pdf (sphts.org)

(I see the definitions also include Approach Signal. I still say don't describe a signal as an Approach Signal -- it might be showing Approach, but it's better described as a home signal or distant signal or absolute signal or interlocking signal or something.)

timz

Some home signals are absolute signals, most aren't.

Can you elaborate on this. I thought ALL home signals were absolute. If it shows a STOP display, it was a stop and stay. No Ifs ands or Buts. 

Lithonia Operator

A 2-position semaphore only says either "red" or "green?" Seems like there would always be a need for some type of "yellow."

Once upon a time, railroads (UP for instance) were known to use single-blade lower-quad semaphore automatic block signals, each one showing red or green, and each one preceded by a single-blade lower-quad yellow-blade semaphore showing yellow or green, maybe 2000-3000 (?) feet from the red/green signal. In later years the single-yellow-blade semaphores mostly disappeared; instead, many of the red/green semaphores got a second blade, a yellow fishtail blade on the same mast. Then if the top blade shows green and the bottom blade shows horizontal/yellow, that means the same as a yellow light -- expect the next signal to be red.

Terminology: don't call a signal an "approach signal". A signal can show an "approach" indication -- a yellow light -- but the signal is a home signal or a distant signal or both. Some home signals are absolute signals, most aren't.

Overmod

it might make more consistent 'sense' to write the lower-quadrant angles "correctly" for clockwise notation as 90-135-170 (or 165) from vertical. 

I agree. Just think of it as a compass, but it's vertical, then the degrees just are. (It wouldn't even have to be thought of as in relation to anything.) The top of the mast is North. Now, this "compass" reads True, not Magnetic.

Lithonia Operator

I think that SP and the signal company could have saved us all a lot of trouble by just going with 10-50-90. Seems like 10 degrees separation from the post would have been clear enough to recognize that "it means it." And there would be the green spectacle also.

I wonder if the alternative of a 0-30-60-90 head, with the last position not used but equipped with a red lens, would be viewed as an alternative.  It would use existing LQ conventions but allow the extra color.  The problem that there appears to be no domestic record of anything but 60-degree two-position for this increment makes me wonder what the 'why not' reasons might have objectively been, though...

(Note that it might make more consistent 'sense' to write the lower-quadrant angles "correctly" for clockwise notation as 90-135-170 (or 165) from vertical.  I will NOT be a nerd and number backward around the quadrants as though this were math class from Hades...)

I think that SP and the signal company could have saved us all a lot of trouble by just going with 10-50-90. Seems like 10 degrees separation from the post would have been clear enough to recognize that "it means it." And there would be the green spectacle also.

Thanks for all of that, OM. And yes, I'll go back and read earlier posts more closely.

Lithonia Operator

... what is an absolute signal?

One meaning if 'absolute' is a stop signal at which you STOP, not 'stop and proceed at restricted speed' or whatever.  As I recall PRR very elegantly provided this on 'upper and lower' position-light aspects with only a single, ominous light in the middle (the lower head usually only rigged to show vertical or 45-degree aspects).  To railfans that light was a warning that (most of the time) a train was either imminent on that track or standing within the following block.

Lithonia:  here are a few additional points.  If you did not read what I said about 'Continuous Light Spectacles' you might want to look them up by name (as it was in one reference to them that I learned the correspondence of the non-green positions in a CLS to the blade color.)

Keep in mind that at the time of the CLS, automatic block signaling was still in comparative infancy, and I think you would usually find the usual three-position 45-degree upper-quadrant semaphore with red/yellow/green or equivalent being used for block warning.

The distant and home convention is for controlling approach to a fixed known hazard -- a crossing at grade, a drawbridge, gantleted track, a hard sharp curve like the one in the DuPont 501 wreck perhaps -- and this has only one aspect at 'stopping' distance, which is only a warning, and one for the actual stop.

We understand as a given that both the 'distant' and 'home' signals run continuously; if either were observed to be dark it would be the most restrictive indication possible.  Now, when the route is clear through an obstruction like a crossing at grade or a properly-locked drawspan, both 'distant/approach' and 'home' will be green.  On a 2-position signal that only leaves one other color, which is duplicated on a CLS so that if the blade sags it still shows a proper lighted indication.  That can't be 'red' for approach, so the duplicated lens in the CLS matches the only other indication an approach signal shows -- which is yellow meaning 'prepare to stop at next signal'.  (Note again that this is not a 'block' signal, merely a heads-up to let what might be a poorly-braked train get stopped at the 'home' location.)

Likewise the 'home' signal is interlocked in binary fashion.  It would make no sense at all to have a home signal that either reads 'green' (utterly safe to proceed) or red (something impairing safe transit).  Consequently the duplicated CLS lens is also red... so that any sagging 'fails safe'.

With searchlight signals you could use the same head and mechanism for both ABS and home/distant; in fact you could use the 'blink' feature to overload some route-signaling or speed-signaling information onto approach/distant.  But this is not something a two-position semaphore would be used for.

I an not surprised that the 'color' of distant and home lower-quadrant semaphore blades will be made to match the light 'code' -- a yellow blade denoting distant/approach aspect with no confusion with ABS, and red meaning 'home'.

Don't take my word for it; as I said I'm not a semaphore aficionado.

But isn't this two upper-quadrant semaphore heads, one over the other?  As I recall, Rudd designed the classic PRR position-light system to replicate such aspects, which is why 'approach' tilts the lower head like / rather than \.

You could be right, Electroliner.

That brings to mind this question: what is the difference between a distant signal and an approach signal. And what is an absolute signal?

I'm going to dive back into my books on this subject. After gleaning some knowledge on this board, the books may make more sense to me upon a second reading. I find this subject surprisingly confusing, TBH.

My understanding of an approach signal was that it had two heads. Both blade down was a full clear, lower blade down and upper plade horizontal was an approach and botn blades horizontal was a stop & stay.

Overmod

That's done with the blade color and approach/home position -- the yellow-blade approach is 'always' yellow or green (with two yellows in the continuous view) and the red-blade home signal following the yellow-blade semaphore will be red/red/green (with two reds).

Thanks, OM, for responding.

But I really don't understand what you're saying. Referring to what I've bolded above, if we're talking about a single (LQ) semaphore, how can it have two yellow indications, and what would be the point? and what does "in continuous view" mean? Similarly, how can a single red blade have two red indications, and what is the point?

Following is what at first glance I thought you you were going to say. Yellow blade can only designate a distant signal; it's green at 60, and yellow at 0; no red indication is available. Red blade means it's a home signal; it's yellow at 60, and red at 0; no green indication is available.

I thought that would be a workable arrangement; however, I clearly must have that wrong. But maybe getting a glimpse of how I think can help you undersand what I'm missing. ??

Now, if you are talking about pairs of semaphores at each location, then obviously other possibilities open up.

I very much appreciate your input.

Lithonia Operator

A 2-position semaphore only says either "red" or "green?" Seems like there would always be a need for some type of "yellow."

The only way to provide a 'yellow' indication would be to provide motorized indexing and locking for an intermediate 30-degree position and putting a yellow lens there; the normal ways to show caution on a two-aspect signal (like the pre-'65 New York City traffic lights that lit both red and green together) won't apply to spectacles with only one light source.  I am told in multiple sources that no lower-quadrant 30-60 degree system used other than the horizontal and 60-degree aspects -- so no yellow at home signals.

There is doubtlessly more about this that semaphore guys will know.  I was a TVM guy in the '70s and a Patenall CPL lover before that, so I have little objective interest other than what I've read.

A 2-position semaphore only says either "red" or "green?" Seems like there would always be a need for some type of "yellow." No?

If PTC fails, you revert back to wayside and/or cab signals.  Some may have their cab signals integrated with PTC.  We don't, although they will work with PTC.  We have waivers to run without cab signals if PTC is operational.  Even with the waivers, the lead engine must have cab signals and have had a departure test performed, in case the PTC fails enroute in cab signal territory. 

Even with radios, block signals still govern now just as much as they did years ago.  All radio really replaced was telephone communications.  Orders and instructions can be issued directly, but the signals still hold as much authority now as then.

jeffhergert

H<SNIP>

I don't agree that waysides aren't has important anymore.  That new technology (PTC) still fails. 

SNIP  

Jeff,

Oh, sure, maybe my suggestion that signals were no longer important was too strong.  I didn't mean it to be.

My thoughts were that back in the steam days and perhaps even the very early Diesel days, the only form of communication between the ground and the crew was through signals whether they be wayside block or CTC signals, train order semaphores or a guy on the ground with a flag or lantern.  Other than that, in order to get further communication the train had to be stopped at a wayside call box.

After the crews all had radios that changed somewhat so that wayside signals aren't as important as they once were.  But neither can they be done away with.

I have long wondered what would happen if the PTC crashes?  I would like to think that movements could still proceed according to wayside block signals.  Or, one can at least hope.  :)

Regards,

Fred M. Cain

Here's a drawing showing the cross-section of the mechanism with the rough path of the beam dotted in:

https://www.railroadsignals.us/signals/searchlights/USSguts2doublet.jpg

Here's a YouTube video that shows the color mechanism in one brand of searchlight signals.  Credit the YouTuber.

https://www.youtube.com/watch?v=rMrCkOG8cLw

Here's a video on how a searchlight signal works.  The signal in the video is a "pot" or "dwarf" signal, one that's at ground level, but the tall ones work the same way.

 SLO Railroad Museum (slorrm.com) 

I don't agree that waysides aren't has important anymore.  That new technology (PTC) still fails.    

A lot of how well a signal can be seen depends on how well it's "aimed" down the tracks.  Keeping vegetation cut back also helps.  The new LED bulbs are brighter than incandescent bulbs, but don't put out the heat that can keep the light clear of snow buildup during winter storms.  Incandescent bulbs on signals with approach lighting also have problems because they aren't on to keep snow from building up or on long enough to melt any accumulated snow.

Green always seems to be the hardest color to see during daytime.  We have a saying, "If it can't be seen, it must be green."  That's from when we were approaching a wayside signal with a clear aspect on the cab signal.

Jeff 

Overmod

Suspect those were not lead-acid, but "Edison" nickel-iron storage batteries, at least in that era.

I seem to recall running across several references to lead acid batteries being used for signalling. Unlike car lighting batteries, the signal batteries would only have to be moved for charging. Charging of the signal batteries would have been more controlled than charging of car lighting batteries. I believe lead acid batteries have a flatter discharge characteristic than nickel-iron batteries and possibly a lower self discharge rate.

Interesting fact: The first power semiconductors were the copper oxide rectifiers used for charging signal batteries.

Overmod

A great breakthrough with color lights was the two-lens 'searchlight' which reduced the 'color' lens to small dimensions and allowed good projector optics without loss.  I am not surprised SP adopted these...

Suspect those were not lead-acid, but "Edison" nickel-iron storage batteries.

 

I thought I saw lead-acid batteries at some point but maybe I'm remembering that from somewhere else.  Whatever they were I was told they had to be recharged.  I don't believe they had solar panels yet.

As for the searchlights, I have been told and I think it's true that they operated much in the same way that the searchlights did except there was no blade.  As you said, they were "focused" so that they could be seen in the daytime at a distance.

I took a cab ride up the San Joaquin Valley in the early nineties when the BNSF was replacing the old AT&SF searchlights with new three-color "hooded" signals.

I asked the conductor why they were replacing them and he told me that "Well, you see, they getting rid of the signals that you can see and putting in new ones that you can't see".  He was sort of joking but I saw that he was right.  Some of the newer signals were very hard to see. At one point, I heard the engineer say, "I can't make out this signal" and his conductor told him "I've got it.  It's green".

Regards,

FMC

A great breakthrough with color lights was the two-lens 'searchlight' which reduced the 'color' lens to small dimensions and allowed good projector optics without loss.  I am not surprised SP adopted these... for the most part, unsurprisingly, approach-lit

Suspect those were not lead-acid, but "Edison" nickel-iron storage batteries, at least in that era.

timz

was it always red on interlocking semaphores? And never red on automatics?

Overmod

Upon actually looking into this, the 'middle' lenses were indeed made as red; this was called the 'Continuous Light Spectacle' and was supposed to keep the 'most restrictive' aspect visible if snow or ice or some other agency overbalanced the blade.

Overmod,

 That, I believe, is a good explanation possibly the best one we can get.

Never occurred to me to wonder about that -- what color was the middle lens on SP semaphores? Looks yellow on signal 5077 -- was it always red on interlocking semaphores? And never red on automatics? Dunno.