The Bulleid chain-driven valve gear is a type of

steam locomotive A steam locomotive is a locomotive that provides the force to move itself and other vehicles by means of the expansion of steam. It is fuelled by burning combustible material (usually coal, oil or, rarely, wood) to heat water in the locomot ...

valve gear designed by Oliver Bulleid during the Second World War for use on his Pacific (4-6-2) designs. It was peculiar to the Southern Railway in Britain, and borrowed from motor-vehicle practice in an attempt to create a compact and efficient design with a minimum of service requirements.

Design principles

Bulleid's decision to have three cylinders, all driving the middle coupled

axle An axle or axletree is a central shaft for a rotating wheel or gear. On wheeled vehicles, the axle may be fixed to the wheels, rotating with them, or fixed to the vehicle, with the wheels rotating around the axle. In the former case, bearing ...

of his Merchant Navy and West Country / Battle of Britain classes, gave rise to several problems. As each cylinder was to have its own separate valve gear, this left very little space for the conventional inside set of motion. This prompted Bulleid to design a new miniaturised Walschaerts motion that was compact enough to enclose the whole system in a casing. All three sets of valve gear were worked from an auxiliary three-throw

crankshaft A crankshaft is a mechanical component used in a piston engine to convert the reciprocating motion into rotational motion. The crankshaft is a rotating shaft containing one or more crankpins, that are driven by the pistons via the connecting ...

. A Morse inverted-tooth drive

chain A chain is a serial assembly of connected pieces, called links, typically made of metal, with an overall character similar to that of a rope in that it is flexible and curved in compression but linear, rigid, and load-bearing in tension. A c ...

ran horizontally from a triple sprocket on the driving axle to an idler sprocket, from which a second chain ran downwards to the crankshaft. By the use of two chains the valve gear was isolated from the movement of the driving axle on its springs. The idler sprocket could be moved to give both chains the correct tension, but in practice only the vertical chain was adjusted. The auxiliary crankshaft drove both the eccentric rods and the combination levers of the valve gear. The piston valves were of the outside admission type. The valve heads were connected by a double girder arrangement, each actuated by a vertical rocking shaft located between the two girders and midway between the two heads, with a further connecting link pivoted just behind the valve head nearest the front. A sealed oscillating shaft drove the offset upper rocker arm and link, and the whole assembly worked inside the exhaust space of the steam chest. The advantage of having admission steam working on the outside faces of the valves meant that the volume under maximum pressure was completely sealed at the ends with no glands susceptible to leakage. The valve motions and the inside

connecting rod A connecting rod, also called a 'con rod', is the part of a piston engine which connects the piston to the crankshaft. Together with the crank, the connecting rod converts the reciprocating motion of the piston into the rotation of the cranksh ...

were enclosed in an oil bath consisting of a vertical steel box located between the main frame members, containing of oil. About depth of oil lay in the bath; the inside big end was splash-lubricated, and two pumps sprayed oil through perforated pipes over the various valve motion pins. None of this was particularly revolutionary, being borrowed from internal-combustion engine practice; and for use with steam it was established practice for steam motors at the Sentinel Waggon Works. It was thought that the arrangement would obviate the daily need to oil all moving parts and as they were protected from the elements they should be able to run without attention. It was this consideration that meant the continued use of the system, albeit in modified form, on Bulleid's Leader class.

Problems

In practice, the arrangement had a number of disadvantages. Cracks developed in the oil bath casing due to incorrect welding procedure.

Condensation Condensation is the change of the state of matter from the gas phase into the liquid phase, and is the reverse of vaporization. The word most often refers to the water cycle. It can also be defined as the change in the state of water vapor to ...

caused corrosion, and oil leaked out through inadequate seals, causing wheelslip and fire hazards. Valve timing was highly unpredictable; this has been attributed to chain stretch, although Bulleid claimed that it was allowed for. The chains were replaced as part of a valve and piston examination at around , by which time they were considerably worn. This wear, in the chain pins and sprockets, could result in an elongation of the chains by as much as . Bulleid asserted that a slack of would be absorbed by the chain coming under load, with the remaining valve irregularity corrected by adjusting the cut-off. Chain-stretch is widely considered to be the cause of the gear's inefficiencies, but another cause may have been geometrical due to the sequential proportions of levers, especially the multiplying rockers that transmitted the limited movement of the "miniaturised" valve gear to the union link driving the long travel piston valve. These rockers alone would have made accurate valve timing difficult to achieve, giving rise to stress in the drive mechanism, a symptom of which would be an increase in the likelihood of chain-stretch. The maximum throw of the expansion links was . To provide the maximum valve travel of the rocker arms multiplied the motion of the auxiliary crankshaft in the ratio 8:3. The effects of wear in the pin joints, also multiplied by the same ratio, caused valve openings to vary between cylinders even if the driver maintained the same cut-off. A further complication was the unpredictable behaviour of the Eastleigh type of

steam reverser On a steam locomotive, the reversing gear is used to control the direction of travel of the locomotive. It also adjusts the cutoff of the steam locomotive. Reversing lever This is the most common form of reverser. It consists of a long lever moun ...

employed. If this reverser misbehaved under the fluctuating pressures present in the steam chest, the locomotive seemed to have a will of its own. For example, if the reverser dropped into full gear, the slackness in the motion would make the valves overrun their designed full travel. This would result in the locomotive taking off like an unleashed race horse, high coal consumption, throwing the fire out of the chimney and running the risk of a violent high-speed slipping. These problems combined contributed to the gear's eventual replacement by three separate sets of Walschaerts gear mounted in the conventional manner.

References

{{DEFAULTSORT:Bulleid Chain-Driven Valve Gear Locomotive valve gear