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ATC
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See AWS.
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Autotrailer (or autocoach)
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A type of coach designed allow the driver to operate the train,
via special linkages, from a driving compartment at the end
furthest from the locomotive. A locomotive so equipped, such as
1400 class 0-4-2 tank locomotive, is often called an 'autotank'.
The advantage is that the locomotive doesn't have to run round its
train to return from the destination station. This type of train
worked local services between Cheltenham and Honeybourne until 1960
and was known by many local people at the 'Coffee Pot'.
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AWS, Automatic Warning System
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The Great Western Railway pioneered an automatic warning system
that significantly improved railway safety especially during poor
visibility. The impetus for development followed a 'SPAD' (signal
passed at danger) accident at Slough in 1900 which killed five
people. Known technically as a voltage contact system, it comprised
an electric shoe under the locomotive connecting with a ramp
between the rails. The ramp was energised depending on the
condition of the signals ahead of the train, sounding a bell (all
clear) or a horn (caution or danger) in the cab. Trials of the
system, initially known as Automatic Train control (ATC) were
completed by 1910 and it was installed throughout the GWR over the
following years. It remained in use until the mid-1960s. The
British Railways system until the advent of the current TPWS (Train
Protection and Warning System) used exactly the same principle as
the GWR but using elecro -magnets instead of a contact shoe. Great
Western locomotives operating on the GWR are all still equipped
with the brass bell and electrical equipment in the cab and some
have the pickup shoe fitted.
The photograph is a Great Western Railway publicity
photograph c.1930 of a Castle class locomtoive, showing the shoe
beneath the cab making contact with the ramp between the
rails.
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Ballast
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Approximately golf-ball sized pieces of crushed rock (usually
granite or limestone), which holds the track in place, provides
drainage and absorbs the shock and weight of passing trains. The
GWR used 8,000 tons to complete its 3.5-mile extension to
Cheltenham Racecourse.
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Bogie
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The four-wheeled (or sometimes six-wheeled) truck beneath each
end of most carriages and some vans and wagons
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Breather
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A special overlapping joint in the rail found at the end of
sections of continuously welded rail, designed to allow for thermal
expansion and contraction. A length of continuously welded rail can
expand by several centimetres between the coldest and hottest
days.
Photo by Nigel Black. Note the sliding joints to allow for
expansion and contraction of the rail during extremes of
temperature.
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Bull-head Rail
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The type of rail once used throughout the national network but
is used much less now. The shape of the rail is designed to fit
within a 'chair' attached to the sleeper and held in place with a
wooden or sprung-steel key. The GWR has some 'bull-head' rail in
use, especially in station areas and sidings. 'Flat-bottom rail'
(see below) is installed on the extension to Cheltenham.
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Carriage, Coach
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Railway vehicle for carrying passengers, usually carried on
'bogies' (see above). Also known as a coach.
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Cess
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The drainage system running along each side of the track to
ensure ballast does not become waterlogged during wet weather.
Volunteers on the GWR have carried out extensive work to clean and
repair the 'cess' throughout the length of the line.
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'Coffee Pot'
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Colloquial term applied locally to the locomotive and
autotrailer combination that once worked local trains between
Cheltenham and Honeybourne. See Autotrailer.
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CWR, Continuously Welded Rail
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Lengths of rail are welded together end to end, forming one
long, unjointed length. Results in smoother ride for passengers and
less noise for bystanders, eliminating the familiar
'clickety-click' of carriages running over jointed track. The GWR
has installed CWR through Bishops Cleeve and Woodmancote to reduce
the noise and vibration from passing trains that might otherwise be
experienced by residents. Believed to be the first CWR installed on
a heritage railway. Much of the national network comprises CWR.
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Dogfish
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A special type of hopper wagon designed to carry ballast. It has
a capacity of 24 tons and is equipped with chutes to allow the
ballast to fall on to the track.
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Engine
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The traditional term for a steam locomotive (steam engine). In a
diesel locomotive, the 'engine' is the diesel motor, which drives
the locomotive.
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Fishplate, Fishbolt
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Nothing to do with fish! Fishplates are heavy steel bars each
with four holes, used to connect rail ends together. Four fishbolts
pass through first one fishplate, the 'web' of the rail and through
a fishplate on the opposite side, then tightened up using special
nuts. The fishplates are greased regularly to allow the rail ends
to expand and contract during extremes of temperature.
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Flash butt welding
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See CWR above. A method of welding rail ends together by passing
an electrical current of about 30,000 amperes through them. The
rail ends become red-hot and are forced together to form a fused
joint. The excess metal is sheared off and the joint made smooth
with a special grinder.
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Formation
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The levelled and graded stretch of land on which the track is
laid.
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Flat bottom rail
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The type of rail used on the national rail network - it has a
broad, flat base (hence the name), which is attached to the
sleepers. This modern type rail is being used by the GWR outside
station limits.
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'Four-foot' and 'six-foot'
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The track is sometimes colloquially known as the 'four-foot'
(see 'gauge' below) and the space between two tracks (such as in
stations on the GWR or double track main lines) is sometimes called
the 'six-foot'.
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Gauge (track gauge)
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The distance between the rails. Throughout most of the world,
'standard' gauge is 4ft 8½in and this is the gauge of the GWR.
'Narrow' gauge refers to lines with a gauge less than this; 'broad'
gauge is wider.
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Headshunt
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A length of track that allows shunting movements to be made in
to and out of sidings
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Light engine
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An engine travelling on its own (with no train).
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Locomotive (see also 'engine' above)
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The correct terminology for the motive power unit - steam,
diesel or electric - that can be found at the front of a train (or
at both ends of some modern trains, such as high-speed trains).
Locomotives may be designed for different purposes, i.e. 'freight
locomotive', 'express locomotive', 'shunting locomotive'.
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Panel, track panel
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An assembled length of track (usually 60ft long) complete with
sleepers and rail fastenings.
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P/way, Permanent Way
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A term coined in the 19th century to describe the original
railway, including both construction and maintenance. It comprises
rail, sleepers, fastenings and ballast, over which trains run. The
'P/Way Department' is one of the GWR's engineering departments and
is responsible for replacing and maintaining the track over the
whole route.
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Points
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See 'Turnout'
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Rail joint
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The connection between two rail ends - may be jointed using
fishplates or welded.
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Railmotor
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A self-contained, steam-powered railway coach accommodating
about 70 passengers. It comprised a small locomotive mounted
on the front bogie and within the body of the coach, and a
driving compartment at each end. Railmotors were widely used by the
Great Western Railway and they worked services between Cheltenham
and Honeybourne during the line's early years. They were superseded
by 'autotrailers' (see 'A')
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Run round loop
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A length of track with a connection to the main running line at
each end which allows a locomotive to be detached from its train,
pass alongside the train and re-connect at the other end to make
its return journey. Hence, the locomotive 'running round' its
train.
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Semaphore signals or 'semaphores'
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The signalling system used almost since railways began.
Semaphore signals can still be found on some secondary routes of
the national network and on most heritage railways in the UK,
including the GWR. They comprise steel arms mounted on posts . They
are horizontal when at danger, exhibiting a red light at night.
They are moved to a 45-degree angle either upwards (known as upper
quadrant) or downwards (lower quadrant) when the line is clear,
showing a green light at night. The GWR uses lower quadrant signals
(the former Great Western Railway was the principal UK user of
lower-quadrant signals). Colour light signals and electronic
systems have largely superseded semaphores on the main line. The
picture shows a typical GWR lower quadrant signal, showing the line
ahead is clear.
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S & T and Signalbox
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Signal and Telegraph. One of the engineering departments of the
GWR responsible for installing and operating the railways signals
and telephone, or 'telegraph' system of communication between
'signal-boxes' where the signalman controls the movement of trains.
Signal-boxes are installed at Toddington and Winchcombe, additional
signal-boxes and associated signalling equipment will be necessary
on the extension to Cheltenham.
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Shark
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Not the 'Jaws' type, but a brake van equipped with ploughs,
which can be raised or lowered to level off tipped ballast.
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Sleeper
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Lengths of timber or pre-stressed concrete on to which the rails
are fixed. Concrete sleepers - which are almost
maintenance-free - are now used extensively used by the GWR. The
national network mainly uses either concrete or steel sleepers.
Wooden sleepers are mainly confined to pointwork and sidings.
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Staff or Token
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A vital safety device handed by the signalman to the driver or
fireman of a train entering a single-track line. The staff, or
token, carries a lock and the signalling equipment at the opposite
end of the single track line cannot be operated without it. This
ensures another train cannot enter the single track section in the
opposite direction. The driver hands the staff or token to the
signalman when he reaches the end of the single track section and
collects the staff for the next section. The device is often
carried on a large hoop to facilitate easy exchange, which can be
seen at Toddington and Winchcombe signalboxes.
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Steam locomotive (or steam engine)
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See also 'locomotive' above. Steam locomotives that may be found
on the GWR are of four main types:
Saddle Tank - a shunting locomotive such as King
George whose water is carried in an inverted 'U' shaped tank over
the top of the boiler. Coal is carried in a 'bunker' and the
locomotive is completely self-contained.
Side Tank - or just 'Tank locomotive' (such as Thomas
the Tank Engine) - a shunting or main-line locomotive with vertical
tanks for water either side of the boiler. Again, coal is carried
in a bunker.
Pannier tank - a type of tank locomotive almost
exclusive to the Great Western Railway, where the water is carried
in 'panniers' on either side of the boiler. Coal is carried
in a bunker.
Tender locomotive - there are no tanks on the
locomotive, all water and coal is carried in a separate 'tender'
coupled immediately behind it. The largest express
locomotives may carry up to 8,000 gallons of water and up to six
tons of coal.
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Tamper
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A special on-track machine, which raises, aligns and levels the
track, consolidating the ballast beneath and beside the sleepers
and providing a smooth, safe and level track.
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TPWS, Train Protection and Warning System
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This is the current train protection system fitted on the
national network. It is a direct descendent of the Great Western
Railway's Automatic Warning System which significantly improved
railway safety (see AWS).
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Train
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The collective term for the coaches or wagons being pulled by a
locomotive ('the train is being pulled by a steam locomotive') or
for the combined ensemble of locomotive and carriages / wagons. A
locomotive should not normally be singly referred to as a
'train'. For example:
Wrong: 'King George' is a beautifully restored steam
train.'
Correct: 'King George' is a beautifully restored
steam locomotive (or steam engine).'
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Turnout (or Points)
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A track installation that enables a train to change from one
track to another.
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Water Crane
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A device for delivering a large quantity of water quickly in to
a steam locomotive's tank. The crane comprises a large steel pipe
with a flexible connection and is mounted alongside the track. The
water may be supplied from a header tank integral with the crane or
from a tank located elsewhere. A steam locomotive at the GWR will
consume several hundred gallons of water during a typical day.
Water cranes are located at both Toddington and Winchcombe
stations, one will also be installed at Cheltenham.
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Water Troughs
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Although the Cheltenham to Stratford line was never equipped
with water troughs, many of the locomotives we operate on our line
today are equipped with a 'water scoop' (although locked out of
use). The scoop was lowered into the trough to collect water whilst
the locomotive was travelling.Troughs could be found on most of the
UK's main lines (except the Southern) and required a mile or so of
level track. Water was automatically supplied with treated water
from tanks at the side of the line. The troughs significantly
increased the range of the locomotive, allowing non-stop runs over
immense distances - for example London to Edinburgh. For more
information visit our footplate guide.
The photo shows Castle class 7025 'Sudeley Castle' with a
Worcester-Paddington express on Charlbury troughs, 18th May 1963.
Photo Paul Riley / Restoration & Archiving Trust
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Whyte
System for Wheel Arrangement
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In 1900 the American engineer F W Whyte - a Dutch New York
Central Railroad mechanical engineer - devised a system to describe
the wheel arrangement of a locomotive. The number of wheels is
counted starting with leading, undriven, carrying wheels, followed
by the number of coupled driving wheels and then the number of
another undriven trailing wheels, each number separated by a dash
and starting from the front. Thus 2-8-0 indicates two leading
wheels, eight driven coupled wheels and no trailing wheels. Tank
engines are indicated by appending a 'T' to the wheel arrangement
(e.g. 0-6-2T). This can be further refined by using 'ST' to
indicate a saddle tank (e.g. 0-4-0ST), 'PT' for pannier tanks (e.g.
0-6-0PT) and 'WT' for a well tank (e.g. 0-4-2WT). 'T' on its own
indicates side tanks. Articulated locomotives such as Beyer Garrets
are indicated with addition of a '+': for example, 2-6-0 +
0-6-2
Some wheel arrangements were so common they also had names and
those that fell into use in the UK included:
- Prairie: 2-6-2 (such as the Great Western 'Prairie' tanks)
- Atlantic: 4-4-2 (such as 'Brighton' Atlantics)
- Pacific: 4-6-2 (most later express locomotives in the UK, apart
from the Great Western - which had just one (the first one in the
UK, of course), called The Great Bear)
- Mogul: 2-6-0 (a popular arrangement for mixed-traffic
locomotives)
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