Friday, 7 January 2011

How to lose 10,000 railway wagons

In Part 5 of my series of posts on traffic movements at Sedgeley Junction, I describe movements of 9th February 1963.

A note I made on the same day awards my personal 'Oscar' for what I describe as the "best non-political laugh of the New Year". The award was given to to this cry-from-the-heart published in the 'WE1' special notice for January 1963 concerning missing condemned wagons:-

LOCOMOTIVE COAL SUPPLIES

There are approximately 10,000 wagons marked "COND - ONE JOURNEY ONLY LOCO COAL" which have not yet been reported as having arrived at Motive Power Depots. These wagons have been removed from the stock book of British Railways and it is therefore strictly forbidden for wagons marked in this way to be used for any other purpose than the storage of loco coal. As they arrive at M.P.D. the C.M.& E.E. staff is to be advised so that report of arrival can be made to the Central Stock Registry on form CSR2.

On the Footplate (Part 2)

In Part 1, we talked about getting the locomotive ready for service and moving, light engine, to its train

When the locomotives reaches its train, it will normally stand clear until called on by the Guard. The Guard "owns" the train and is responsible for deciding when the engine can couple up.

When the driver 'buffers up', he will attempt to stop with the buffers compressed so that the train can be fairly tightly attached to its train. The driver will then ensure that the locomotive is put in a condition where no further movement can occur. In preservation, this will usually be engine handbrake on, reverser in mid-gear, regulator closed fully and cylinder drain cocks open. If the front of the engine is next to the train, the cylinder drain cocks are sometimes closed to avoid the area between engine and coaches turning into a sauna.

"The space for the fireman to stand is quite restricted" - Lisa attaches 'Royal Pioneer to its train

The actual business of coupling up is usually carried out by the fireman, once he's come to a clear understanding with the driver that it's "safe to go under". He then ducks under the buffers, grabs the engine coupling and swings it over the drawhook on the leading vehicle. This is easier said than done as locomotive couplings are quite substantial since they transmit the full 'pulling power' to move the train. If the driver 'squeezed up' well, the space for the fireman to stand is quite restricted and there are all sorts of obstructions to bump into like vacuum brake and steam heating hoses and the end corridor connection on the coach is usually just where the fireman would prefer to stand. Generally, a screw coupling is used. Once the coupling is on the drawhook, it is tightened up by rotating a threaded screw using a built-in tommy bar incorporating a counterweight. The idea is that, on straight track, the buffers will be equally compressed but on curves, the buffers on the inside of the curve will be further compressed and the buffers on the outside of the curve will slacken slightly. At all times, the buffers should remain under some compression, so that the train cannot bang in and out. The comfort of the passengers depends upon this buffer compression and screw adjustment being correctly carried out.

Passenger trains have an 'automatic' brake which is described in more detail in an earlier article. Brakes on the locomotive and the train can be applied by the driver, the guard or by a passenger operating what used to be called the 'Communication Cord' but is now usually referred to as the 'PCD' (Passenger Communication Device). Although main line railways including main line preserved steam use air brakes (featuring the British Railways 2-pipe system), preserved railways usually use the Vacuum Brake system. This requires a continuous brake pipe extending from the locomotive along the length of the train.

The fireman has to interconnect the flexible, reinforced vacuum hose on the locomotive to a similar hose on the leading vehicle and flexible hoses will be provided between vehicles along the length of the train. Each vacuum hose terminates in a metal coupling provided with two 'horns' - a cranked lower horn which interlocks with the lower horn on the adjacent metal coupling and a straight, slotted upper horn which locates in a slot in the adjacent metal coupling. To prevent the hoses from pulling apart, a spring pin on the end of a short chain is attached to each metal coupling. Each pin is pushed through the associated slot in the upper horn. The position of the flexible vacuum hose varies from vehicle to vehicle, sometimes hanging down below solebar level, sometimes fixed to a branch pipe terminated well above solebar level (usually called a 'High Hose'). At each end of the train, the unused vacuum hose must be connected to a dummy coupling or 'stopper' to allow vacuum to be created.

In the steam heating season, the locomotive may be required to heat the train. Steam is taken from the boiler, regulated to a lower pressure (usually between 25 and 50 p.s.i. in preservation) and piped along the train to a series of radiators in the coaches. Flexible hoses are used to connect between vehicles. Each steam heating hose terminates in a metal coupling with a cranked lower 'horn' and a straight, slotted upper horn. In this case, two hinged clips are used to secure a pair of joined hoses. Each hose connection is provided with an isolating cock and an automatic drip valve to help clear water from the pipework. At each end of the train, the free end of the steam heating hose is attached to a chain, to prevent it striking trackwork, since there is no dummy coupling. Instead, the isolating cock must be closed to prevent escape of steam.

This picture shows the rear of the train, with the flexible vacuum hose on the left placed on the 'dummy coupling'. Steam is being intentionally vented from the steam heating hose on the right, to remove condensate from the system.

To be continued ...

Traffic Movements at Sedgeley Junction 1962-1963 (Part 17)

This is one of a series of posts describing traffic movements I observed whilst unofficially working Sedgeley Junction signal box.

As described in Part 1, you can find the passenger timings here and the freight timings here. The notes are intended to go with a copy of the Train Register Book which is missing so, forty seven years later, the meaning of some of the original notes is not very clear. The original notes appear in italics with minimal editing, sometimes followed by my recent comments attempting clarification. The numbers in brackets have been added to assist in locating entries.

Sedgeley Jn. Saturday 8th June 1963

(1) T39 goes up with Stanier 2-6-0 42979 making a nice noise. The load is 1 Plate wagon, 3 Vans, 3 Mineral wagons (one loaded with pipe fittings and elbows), 5 Tube wagons and a W.R. brake van stencilled 'MAESGLAS'.
(2) We get a report that they've stopped work at Great Bridge until the Ganger has carried out track repairs following an earlier incident involving WR3 off the road. Apparently, when the Breakdown Crane had finished working at 6.0 a.m., it came from Great Bridge to Sedgeley Junction and sent on to Dudley Port High Level.
(3) The down Diesel Parcels Unit is held outside the box so that we can explain that Dudley Port High Level has Blocked Back whilst he handles both the Dudley Port Local and the steam-hauled parcels.
(4) Dudley Port sends us the Up Local and, as soon as we give 'Train Out Of Section' for the passenger, offers the parcels. The steam-hauled parcels is soon whistling imperiously at our Up Branch Home which is 'On' because the Up Passenger has not yet cleared Dudley. As soon as we clear the signal 'Mickey Mouse' 46456 scampers by with one clean, new-looking 'BG', one Long Wheel Base 4-wheel parcels van, one 'CCT' and one B.R. 'BG'.
(5) T47 is reported as "37, 17 off at Round Oak". He comes up with 8713, four 3-container wagons, 16 open wagons loaded with railway wheelsets, 3 Plate wagons loaded with steel bars, 2 Plate wagons loaded with steel slabs, 2 open wagons loaded with steel drums, various open wagons, 1 coke wagon, 6 coal wagons and a B.R. brake. T39 (dragging his own brake van) is working hard at the rear.
(6) The Walsall local at 9.03 a.m. has changed from a 'Gloucester' twin to a 'Metro-Cammell twin.
(7) WR1 goes down slowly headed by 8424 with an old (M.R.?) brake, mineral wagons, L.M.R. brake, a Plate wagon (presumably as a barrier wagon because of the overhamg on the following wagon), loads of steel rods in steel open wagons, 4 rods to a wagon and overhanging each end (see sketch below: previously, I've seen these rods carried on bogie bolsters), a few open wagons, one load of coke and a W.R. brake.
(8) The parcels at 10.10 a.m. comprises the engine and one clean 'BG'.
(9) 8733 is in charge of T65 today. The headcode is "top and middle" (one lamp on the chimney, one in the middle of the buffer beam). The load is 2 Vans, 2 loaded Conflats, 3 Mineral wagons of scrap, 20 Mineral wagons loaded with coal or slack, 1 Van, 1 Open wagon, 3 Banana vans, 4 Mineral wagons loaded with steel turnings and a B.R. brake. 8269 is banking.
(10) It gets quite busy around 11.0 a.m. As I send 'Call Attention' to Horsley Fields for the Down light engine at 10.55, he is trying the send 'Call Attention' for the Up Walsall, which causes a general stir!
(11) T47 returns downhill tender first with 26 empties and his B.R. brake.
(12) We get a report that 12030 has failed and requires assistance back to shed.
[I assume that 12030 was the Great Bridge diesel-electric shunter but I've only just realised that this number is an early-series build]
(13) Horsley Fields sends us T39 with 30 Dudley's, assisted by a banker, and then closes unofficially for a while.
(14) T39 passes us making a lot of smoke. The load is 1 empty Mineral wagon, 8 loads of coal, 8 empty Plate wagons, 2 Tube wagons loaded with tubes, 4 bogie bolsters 'BBE' loaded with steel bar (the bar is about 3 inches square and the ends of the bars are painted blue and white for identification), 6 empty Mineral wagons and an L.M.R. brake. T63 is giving a helping hand at the rear.
(15) T39 returns downhill tender first with 1 Mineral wagon loaded with fabricated tubes, 2 open wagons, 10 loaded Conflats and an L.M.R. brake.
(16)WR1 on the Up is reported as 30 equal to 36. It's a train of slack and I count the wagons with tight couplings to see how much work the train engine is doing. He seems to be doing the lion's share of the work with 21 wagons. T63 is pushing the rest of the train and the W.R. brake van. The fireman on T63 is hosing down the footplate as he passes the box.
(17) At 1.0 p.m., T65 passes on the down with 45 empties and a B.R. brake. The engine is 8733, tender first, and I notice he has a Fowler tender (like the engine off T39 we saw earlier).
(18) The engine and brake on the down is WR2, 8748 tender first and a B.R. brake marked 'RU' (restricted use). 8748 is returning to Great Bridge to work another train.
(19) Horsley Fields offers us WR2 on the Up and then closes again unofficially for a while.
(20) WR2 passes us with 8748 making a lot of smoke, but hauling 25 loads of coal, leaving 9 wagons and the brake van for the banker to push. One load of coal is in an all-steel open wagon which, unlike the rest of the train, is very clean. The B.R. brake is marked 'BRISTOL-MANCHESTER-SALTLEY-BRISTOL CIRCUIT'.