Click to visit GAUGEMASTER's home page.
Click to visit RIGHT LINES home page.

Dapol Semaphore Signals

Image of MATT LOVELL.MATT LOVELL looks at this range of operating signals from Dapol.

See more ELECTRICS

In earlier issues we have looked at both DC and DCC colour light signals by Train Tech. In this article we will be concentrating on a more nostalgic design, the Semaphore.

A Brief History

The semaphore signal has been around since the early 1840s and was patented by Joseph James Stevens. Although most of them have been replaced by colour light signals there are still lots of areas in the UK which still rely on them. Europe and the USA also used a semaphore signal system.

Semaphore signals use a metal or wooden arm (blade) which operates up and down on a pole. Attached to this arm are red and green spectacle plates which with the aid of bulb illuminate either Red or Green to oncoming trains.

Different Styles of Semaphore

There are many different styles of semaphore signals and depending on where you live you would see either:

Semaphore 01.

Upper quadrant (Arm moves up to show line clear and centre for stop)

Semaphore 02.

Lower quadrant (Arm moves down to show line clear and centre for stop)

Semaphore 03.

Home Signal (Red arm with white band)

Semaphore 04.

Or Distant Signal. (Yellow arm with black band).

There are also signals dedicated to platform use, these are called starter signals.

Uses of Semaphore Signals

Along any mainline or branch line there are signals positioned in specific locations to control traffic and to ensure that trains do not enter the same section of track which could cause collisions. The main two signals used are the distant and home signals. These two signals are linked to ensure that if the home signal is clear (Green) then the distant signal will show clear (Green). However if the home signal shows stop (Red) then the distant signal will need to show caution (Yellow).

Semaphore 06.

Semaphore signals were also used at junctions to give indication on clear routes ahead. These signals work the same way as single signals just attached to a bracket.

Semaphore 07.

Smaller signals were used in goods yards and depots. As there is not a lot of room in a yard for full size signals ground signals were created to save space but still allow for full operation.

Semaphore 08.

For large stations multiple signals are to control many tracks at once, so rather than have lots of single signals dotted around gantries were constructed to span across the tracks with the relevant signal placed above the track so the driver could just look up at them.

Dapol Semaphore Signals

The main focus of this article is how to install a semaphore signal onto the model railway. Dapol produce some nice scale semaphore signals in various styles. I will be using Dapol's DA4L-001-001 GWR lower quadrant signal.

Step 1: Installation

Semaphore 09.

Firstly, measure out where you want the signal to go. Take care when doing this as too far away from the track and the signal will look out of place and too close will cause the train to hit it on the way past.

Semaphore 10.

Next, using a set of callipers or a ruler measure the diameter of the solenoid and use a suitable size spade drill bit to cut the hole. For this signal I used a 14mm spade bit which seemed to work nicely.

Semaphore 11.

The solenoid is threaded and includes a nut to secure the signal to the board; I found that using a spacer between the nut and the bottom of the board aids the security to the board.

Go Back To Top

Step 2: Wiring

On the bottom of the signal there are four wires (two yellows, one red and one black). The red and black are the power to the signal, and the yellow wires are the switch wires which we will look at later on.

Connect the Red and black wires to a Gaugemaster GMC-WM4 12v Regulated DC power supply. This will illuminate the LED behind the spectacle plates on the signal arm.

Step 3: Switching

Now we can look at how to operate the signal. The signal relies on a momentary contact so you will need to use a switch system that does not stay on, otherwise you will burn out the solenoid. You can use lots of different types of switches including push to make, sprung centre off, stud and probe and even reed switches with magnets.

Semaphore 12.

For the first test I have used a push to make switch. Connect a yellow wire to each side of the switch, then just press the button to operate the signal.

Semaphore 13.

The next method of switching I will look at is a sprung centre off system. Connect one yellow wire to the centre contact on the switch and then connect the other yellow wire to one of the outside contacts. You can bridge the two outside contacts together if you want so that it doesn’t matter which way you throw the switch.

Semaphore 14.

The third method I will look at is a popular system for any modeller constructing a control panel - Stud and Probe. All you need to do is connect one of the yellow wires to a stud and the other one to a probe. To operate the signal simply touch the stud with the probe. You only need one stud as the signal operates in both directions using the yellow wires.

Semaphore 15.

Lastly, and perhaps the most realistic method that I will show you, is the reed switch and magnet system. This system works automatically, install a reed switch on the layout just before the signal and connect the two yellow wires to that reed. Next attach a magnet to a wagon (the brake van preferably) and as the magnet passes over the reed switch the circuit will be completed and the signal will operate.

Semaphore 16.

With this method you can install a second reed switch in a tunnel or fiddle yard to reset the signal to clear once the locomotive has cleared the section.

Semaphore 17.

Semaphore 18.

You can also use the Train Tech TTSC3 Semaphore controller to switch these signals on a DCC system. Hopefully this has been a useful series of articles showing you how to add an extra dimension of movement to your layout.

Go Back To Top