SIGNALLING BOOK | CHAPTER 2 | PART 1

CONTENTS

1. Introduction - In Part 1

2. Signal Aspects - In Part 1

3. Signalling Principles - In Part 2

4. Drawing Standards - In Part 2

5. Interlocking Principles - In Part 2

6. Train Detection & Track Circuit Block - In Part 2

7. Colour Light Signals - In Part 2

8. Control Panels & Other Methods of Operation - In Part 2

9. Colour Light Signalling Controls - In Part 2

 

1. INTRODUCTION

Whatever type of signalling system is provided on a railway, its basic functions will remain the same. Safety must be ensured by preventing trains colliding with each other and locking points over which the train is to pass.

The means of achieving these functions may vary from one railway administration to another but a set of rules must be laid
down to define:-

1. The positioning of signals
2. The types of signals
3. The aspects to be displayed by the signals and the instructions to be conveyed  by those aspects
4. The controls to be applied to the signals
5. The method of controlling points
6. The method of interlocking points with signals
7. The standardisation of human interfaces

Many countries have sytems of signalling based on British railway signalling practice. The basic British system is very simple having only a small number of different signal aspects displayed to the driver.

The driver is responsible for knowing the route over which he is to pass. The signal engineer must, in turn, provide sufficient information for the driver to safely control the speed of his train and, where necessary, to inform him which route he is to take.

Other signalling systems have developed along a different path. The driver is given specific instructions to travel up to or reduce to an indicated speed. Route indications are optional. This will generally require a more complex set of signal aspects.

This section will deal mainly with the principles and practices of the State Rail Authority of New South Wales, with reference to other systems where appropriate.

2. SIGNAL ASPECTS

There are three principal types of signal, each serving a different purpose:-

1. Main or Running signals control the normal movement of passenger and freight trains on running lines. The great majority of movements will be controlled by main signals.
2. Subsidiary signals, mounted on the same post or structure as running signals, control movements other than for normal running, such as the shunting or coupling of trains.
3. Independent shunting signals, generally similar to the subsidiary signals above, are provided for shunting movements at positions where there is no need for a running signal.

We will examine the aspects displayed by each type of signal and the instructions and/or information conveyed by them.

2.1 Main or Running Signals

As all early signals were semaphore signals, displaying a light for night time use, the aspects of colour light signals are usually based on the indications of the semaphore signals which they replaced.

As most new signalling installations are likely to employ colour light signals, this section will concentrate on colour light signalling only.

SRA (Currentlly TfNSW) employs two methods of signalling on main lines; single light and double light.

As the name suggests, double light signals will always display at least two lights to the driver. Double light signalling is generally used in the Sydney metropolitan area.

Single light signals normally use only one light to convey instructions to the driver, although a second marker light may be illuminated to aid the driver in locating the signal. Single light signalling is mostly used on lines outside the Sydney metropolitan area.

Although there are similarities between the two systems, we will deal with each separately. We will then make a comparison with the corresponding aspects displayed by the British system to enable readers to read signalling plans drawn in British style.

2.1.1 Double Light Signalling

This is intended for use in areas where signals are closely spaced. Each stop signal is therefore required to carry a distant signal for the signal ahead. To give the driver a consistent indications, each signal carries two separate signal heads.

The upper signal head can be considered as the stop signal. It will always be capable of displaying, at least, stop and proceed aspects. The lower signal head can be considered as the distant for the next signal ahead.

An additional green light may be provided below the distant. This is used for a "low speed" indication .

FIGURE 1 shows the normal running aspects for double light signalling.

Four aspects are used for normal running :-

1. STOP is denoted by two red lights, one above the other. Note that the lower signal head will always display a red if  the upper signal is at red, even if the signal ahead is showing a proceed aspect. This is important to avoid misleading or confusing the driver.
2. CAUTION is denoted by green over red. In other words, this signal is at "proceed" (top signal head) but the next signal is at "stop" (bottom signal head acts as distant). The caution indication tells the driver to be prepared to stop at the next signal.
3. MEDIUM is a preliminary warning of the need to stop. It is denoted by green over yellow. Signals in urban areas may be closely spaced.  The one  signal  section between the caution and the stop may provide insufficient braking distance for a train travelling at full line speed. The medium indication tells the driver that the next  signal is at caution. This implies that he may have to  stop  at  the  second  signal ahead.
4. CLEAR allows the train to proceed at maximum speed. A clear indication is two green lights. This will tell the driver that there is no need to reduce speed (other than for fixed speed restrictions) before the next signal.

All the above indications require the driver to know where the next signal is, to safely control the speed of his train and be able to stop where required.

An additional indication is provided on some signal, A  LOW  SPEED  indication, consisting of a small green light below a normal stop aspect tells the driver to proceed at no more than 27km/h towards the next signal. This is generally more  restrictive than the  caution. The low speed aspect is used when the track is only clear for a very short distance beyond the next signal.

Fig 1: DOUBLE LIGHT SIGNALLING - ASPECTS FOR NORMAL RUNNING

*Where a low speed indication is provided.

Fig 2: DOUBLE LIGHT SIGNALLING - TURNOUT ASPECTS

NOTE: A full clear indication is not given for turnouts.

Note the difference in the indications given by Multi-light signals at a turnout. The yellow over red indicates "Proceed" at Medium speed through Turnout, next signal at "Stop". The Yellow over Yellow indicates "Proceed at Medium speed through Turnout" the lower Yellow is cautioning the driver to continue at Medium Speed towards the next signal which is indicating either "CAUTION" or "CLEAR"

*Where a low speed indication is provided.

**In the Sydney and Strathfield resignaled areas this indication represents a 'low speed' with  the train stop at stop. In this case the signal in the rear will show a caution indication.

Figure 2 shows the indications for double light turnout movements.

If there is more than one route from a main signal, the driver  must be told whether he is to take the main line or through route or whether he is to take a lower speed diverging turnout. This information is necessary to prevent the driver running through a turnout at too high a speed.

The upper signal head is used to display a distinct proceed aspect for a turnout. Instead of the green normally displayed, a yellow light will tell the driver that he is to take the turnout. The proceed aspects for turnouts are:-

1. CAUTION TURNOUT (yellow over red, also described in some operating documents as medium caution) tells the driver to expect the next signal to be at red.
2. MEDIUM TURNOUT (yellow over yellow) tells the driver that the  next  signal ahead is displaying a proceed aspect. This is the least restrictive aspect for a turnout. There is no equivalent of a clear aspect for trains signalled over a turnout.

To give a clearer indication to the driver where several routes are possible from one signal, the main signal aspect may be used instead, in  conjunction with a theatre route indicator. The route indicator contains a matrix of small  lunar  white lights which  can  be illuminated to display a Jetter or number. Each character will be associated with a distinct route.

The route indicator is not illuminated when the signal is at stop.  When  the  signal  is required. to clear, the route indicator will illuminate for the appropriate route.

LOW SPEED aspects may be used. If  a  low  speed  aspect is provided for a turnout route, this is no different in appearance to a  low speed for the main line route. This is not a problem as this aspect conveys a specific speed instruction. As the speed is  likely to be lower than that of most turnouts, route information is not essential

2.1.2 Single Light Signalling

On lines where single light signalling is installed, the spacing of signals may vary widely. Therefore some signals may be combined stop and distant signals (as for double  light) but there may also be signals which are stop signals only or distant signals only.

The instruction to the driver is therefore generally conveyed by a single light. A second marker light is provided below the main light to aid the driver in locating the signal.

The meaning of the signal aspects is equivalent to the double light aspects but the appearance to the driver is different.

FIGURE 3 shows the normal running aspects  for single  light signalling.

The appearance of each aspect is as follows:-

1. STOP consists of a red light. The marker light also displays a red, except on some older signals where it is lunar white.
2. CAUTION consists of a single steady yellow light. The marker light is extinguished, except on some older signals where it is lunar white. If the main light should fail the marker light  will  display a red on stop signals or yellow on distant signals.
3. MEDIUM, where this aspect is necessary, will be a flashing or pulsating yellow light. The marker light will operate as for the caution aspect.
4. CLEAR is a green light. The marker light will operate as for the caution aspect.
5. LOW SPEED aspects may be used in single light signalling where required. An additional small green light is provided below the marker light. The complete low speed aspect will be a main red light over a red marker light with the additional green light illuminated .

Fig 3: SINGLE LIGHT SIGNALLING - ASPECTS FOR NORMAL RUNNING

 

Fig 4: SINGLE LIGHT SIGNALLING - TURNOUT ASPECTS

The indication displayed by a Home signal for a turnout movement through facing points into a Loop Refuge siding or important siding consists of a band of three yellow lights in a subsidiary light unit (inclined towards the direction  of the movement). The Red light is  displayed in the Main line signal, as shown. The marker light for the main line signal, contained in the subsiduary light unit will be extinguished when the main line or turnout signal indication is displayed.

4.1 ROUTE INDICATIONS MAIN LINE

At locations where more than one turnout is provided one signal indication is some times given and in such cases a route indicator working in conjunction with th e signal is provided, this enables drivers to ascertain the route for which th e signal has been cleared.

The route indicator will not show any indication when the signal is at stop, but when the points have been set for the turnout movement a yellow light will appear in the signal in conjunction with the route indication showing a letter to denote the line to which the train will travel, e.g.

Figure 4 shows the indications for single light turnout movements.

For junction signals, two distinct methods are used according to the situation. For a simple turnout into a loop or siding, a separate turnout signal is provided below the main aspect, incorporating the marker light.

For a CAUTION TURNOUT aspect, the main aspect remains at red, the marker light is extinguished and the three yellow lights of the turnout signal are illuminated . The row of lights is inclined in the direction of the turnout.

For a MEDIUM TURNOUT aspect, the turnout signal will flash. Otherwise the appearance is the same as above.

As for double light signalling, a theatre route indicator may be used in conjunction with the main signal aspect, where several routes are possible from one signal.

Again the route indicator is not illuminated when the signal is at stop. When  the signal  is required to clear, the route indicator will illuminate for the appropriate route.

The normal construction of signals is to provide a separate lamp unit for each light to be displayed . Some signals, however, are of the "searchlight" type. In this type of signal, the lamp is continuously illuminated and coloured lenses are moved in front of the  lamp according to the aspect to be displayed. The lenses are moved by a relay mechanism inside the signal head. The lights visible to the driver are the same for either type of signal.

2.2 Subsidiary Signals Associated with Main Signals

As well as normal running movements, signals may be required for some of  the following movements:-

• Entering an occupied section
• Shunting into a siding
• Running on to a line used for traffic in the opposite direction.
• Attaching or detaching vehicles or locomotives.

The main types are described below. As for the running signals, only current practice is covered in detail.

Although the SRA (TfNSW) practice will allow subsidiary signals to clear immediately the route is set, many railway administrations employ approach control to delay clearance of the subsidiary signal until the train has come at or almost to  a  stand  at  the  signal. This  is usually achieved by timed track circuit occupation.

The driver will receive a caution at the previous signal and will be preparing to stop. Subsidiary signals are short range signals which are only visible within a short distance of the signal.

2.2.1 Subsidiary Shunt and Calling-on Signals

These authorise a driver to pass a main signal at stop for shunting purposes or to enter an occupied section. The driver must be prepared  to  stop short of  any  train or other obstruction on the line ahead. He must therefore control the speed of his train so that he can stop within the distance he can see.

The appearance of these signals is a small yellow light below the main aspect. On  some older double light signals the letters "CO" in a round lens illuminated in white may be used.

2.2.2 Shunt Ahead Signal

This signal is generally found on single and double lines worked under absolute block conditions. It permits the movement of a train past the starting signal for shunting purposes. It does not require a block release from the signal box ahead and the movement  will  eventually come back behind the starting signal when shunting is complete.

As this method of working is generally only found outside the suburban area, a shunt ahead signal will normally be provided on single light signals only.

It consists of a small flashing yellow signal below the main running signal and marker light.

2.2.3 Close-up Signal

This is similar in appearance and application to the low speed signal.

2.2.4 Dead-end Signal

This is for entering short dead end sidings directly from a running line. The only difference between this and a subsidiary shunting or calling-on signal is that the dead end signal is offset from the post on the same side as the siding leads off the main line.

Subsidiary signals display no aspect when not in  use.  The  associated  main  signal  will  remain at stop when the subsidiary signal is in use.

Route indicators may be used in conjunction with subsidiary aspects to give an  indication to the driver where multiple routes are available. In the case of a movement on to another running line in the wrong direction (i.e. opposite to normal direction of traffic) a route indication is always provided.

2.4 Shunting Signals

Signals may also be required for shunting movements in positions where no main signal is necessary. The most common locations are:-

• Entrance to and exit from sidings.
• At crossovers to allow a wrong road movement to regain the right line.
• In yards and depots where main signals are not required.

As they have no associated main signal, they must display a stop as well as a proceed aspect.

2.5 Dwarf and Position-light Signals

Two main types are in use, the dwarf signal, with all lights arranged vertically and the position light signal. The diagrams show the various signal profiles.  Both types display two red lights for stop. The proceed aspect is normally only a yellow indicating caution. Shunting signals do not always prove track circuits clear and the driver must be ready to stop if there is another train occupying the section ahead. The proceed aspect may be accompanied by a route indication.

Shunting signals are normally mounted at ground level, although they may be elevated if required for sighting.

2.3.2 Stop Boards

If a wrong road movement is authorised from a shunting or subsidiary signal there must be another signal ahead to limit the wrong road movement.

If no such signal was provided, the movement could continue past the protecting signal for the normal direction of traffic and cause a collision.

The usual signal is an illuminated notice board carrying the words "SHUNTING  LIMIT". It can be considered as a shunting signal permanently at danger.

2.3.3 Facing Shunt Signals

A shunting signal is sometimes needed in a position where it is passed in the normal direction by running movements. To avoid confusing  the driver by displaying a yellow light for a movement which may well be running under the authority of clear signals, these facing shunt signals are provided with an additional green light (clear aspect) for use only in this situation.

2.3.4 Point Indicators

Although not signals in the same way as those just described, point indicators are important in sidings to avoid derailments and damage to equipment.

They provide a visible indication of the position of hand operated points. Operation may be either mechanical or electrical.

Located alongside the point switches, they display an illuminated arrow in the direction of the line for which the points are set.

2.5 British Signalling Aspects

For the benefit of those who may at some time have to read signalling plans drawn to British standards (e.g. for the IRSE examination), this is a brief summary of the aspects in use, their meanings and how they are drawn.

2.5.1 Main Signals

As with SRA (Currently TfNSW) practice, three colours are used, red,  yellow  and  green.  On  the  plan,  a  red light is denoted by a circle with a horizontal line across it. A yellow  light  has the line at 45° and a green light has a vertical line. The  "normaJ"  aspect  of  the signaJ  (i.e. with  no  routes set and all track circuits clear) is shown by a double line in the appropriate light(s).

There are four available aspects; STOP is a red light, CAUTION is a single yellow light, PRELIMINARY CAUTION is two yellow lights and  CLEAR  is  green.The stop, caution and clear signals have the same meanings as the corresponding SRA  aspects. The preliminary caution is similar to the MEDIUM indication  of  SRA  signaJs. The  double yellow aspect is only used in situations where signals  must  be  positioned  closer  together than braking distance. Many lines use red, single yellow and green only.

Marker lights are not used.

There is no equivalent of the LOW  SPEED  signal. An equivalent control (to allow trains to close up provided they are running  at very low speed)  is provided  by delayed clearance of the yellow aspect. The train must be almost stationary at the signal before the aspect will change from red to yellow. This is achieved by applying approach control with timed track circuit occupation.

2.5.2 Junction Signalling

Where a signal has more than one route, a distinct route indication must be given for each  route, except that the highest speed or straight route  need  not have a route  indication.  This may take one of two forms, a junction indicator (a row of  five white lights)  normally  above the main signal and pointing in the direction of the divergence or a multi lamp or fibre optic route indicator displaying one or two characters.

There are six available junction indicator positions. Positions 1, 2 and  3 (at 45°, 90" and 135° respectively) indicate diverging routes to the left. Positions 4, 5 and 6 provide equivalent indications to the right.

Multi-lamp or fibre optic route indicators are restricted to routes with a speed of 40 mph (64 km/h) or less.

Where necessary, clearance of the junction signal is delayed by occupation of the approach track circuit (timed if necessary) to enforce a speed  reduction.  This  is  because  the  driver may receive no warning at previous signals of the route set from the junction signal

2.5.3 Subsidiary Signals

The standard subsidiary signal is a position light with two white lights at 45°. The proceed aspect is both lights illuminated. There is no stop aspect -  the  associated  main  signal remains at red. Route indicators are provided  where  necessary but are not obligatory -  if they are provided, route  indications  must  be displayed  for  all routes. The subsidiary signal is used for all shunting and calling on moves.

This is a short range signal. An approaching train must be  brought  to a stand  before clearance of the subsidiary aspect.

2.5.4 Shunting Signals

The position light shunting signal has two white lights and one red  light. The proceed  aspect is identical to the subsidiary signal. The stop aspect is one red and one white  light, horizontally placed. The white light at the lower right {the "pivot" light) therefore remains continuously lit. A shunting signal with two red lights only is used as a "limit of shunt" indicator.

2.6    Summary

Whatever the system of signalling, the signal engineer  must  have  a  detailed  knowledge  of the aspects displayed to the driver and the instructions conveyed. He must then design  the layout of the signalling and the associated controls so that the driver can safely obey all signal aspects.

This  must apply for all types of  train likely to use a line. When  required  to reduce  speed or stop, trains must have adequate braking distance under all conditions. The driver of a train must never be given an instruction by a signal that he is unable to comply with.

 

TO BE CONTINUED - SIGNALLING BOOK | CHAPTER 2 | PART 2...........