Here are a number of pictures showing the internal
valve gear which were enclosed in an oil bath between
the frames of the engines. Much lighter miniaturisation
reduces the weight of this gear. Actuation of the piston
valves was by way of a multiplier of the order 8:3
Bulleid's decision to have three cylinders, all driving the middle coupled axle 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 Morse inverted-tooth drive chain 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 valve motions and the inside connecting rod were enclosed in an oil bath consisting of a vertical steel box located between the main frame members, containing 40 imperial gallons (182 litres; 48 US gallons) of oil. About 2 inches (51 mm) 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 100,000 miles (160,000 km) without attention.
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 2.25 inches (5.7 cm). To provide the maximum valve travel of 6 inches (15.2 cm) 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 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. Sadly this added a further five tons in weight to the engines reducing the route availability of the rebuilds.
Many thanks Wikipedia for the bulk of the notes, some have been added to by me.
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