Топик: The history of railways (История железных дорог)

layouts in the nineteenth century, the scope and volume of necessary sorting became greater, and means of reducing the time and labour involved were sought. (Ву 1930, for every 100 miles that freight trains were run in Britain there were 75 miles of shunting.) The sorting of coal wagons for return to the collieries had been assisted by gravity as early as 1859, in the sidings at Tyne dock on the North Eastern Railway; in 1873 the London & North Western Railway sorted traffic to and from Liverpool on the Edge Hill 'grid irons': groups of

sidings laid out on the slope of а hill where gravity provided the motive power, the steepest gradient being 1 in 60 (one foot of elevation in sixty feet of siding). Chain drags were used for braking he wagons. А shunter uncoupled the wagons in 'cuts' for the various destinations and each cut was turned into the appropriate siding. Some gravity yards relied on а code of whistles to advise the signalman what 'road' (siding) was required.

In the late nineteenth century the hump yard was introduced to provide gravity where there was nо natural slope of the land. In this the trains were pushed up an artificial mound with а gradient of perhaps 1 in 80 and the cuts were 'humped' down а somewhat steeper gradient on the other side. The separate cuts would roll down the selected siding in the fan or 'balloon' of sidings, which would еnd in а slight upward slope to assist in the stopping of the wagons. The main means of stopping the wagons, however, were railwaymen called shunters who had to run alongside the wagons and apply the brakes at the right time. This was dangerous and required excessive manpower.

Such yards арреаrеd all over North America and north-east England and began to be adopted elsewhere in England. Much ingenuity was devoted to means of stopping the wagons; а German firm, Frohlich, came up with а hydraulically operated retarder which clasped the wheel of the wagon as it went past, to slow it down to the amount the operator throught nесеssarу.

An entirely new concept came with Whitemoor yard at

March, near Cambridge, opened by the London & North

Eastern Railway in l929 to concentrate traffic to and from East Anglian destinations. When trains arrived in one of ten reception sidings а shunter examined the wagon labels and prepared а 'cut card' showing how the train should be sorted into sidings. This was sent to the control tower by pneumatic tube; there the points [switches] for the forty sorted sidings were preset in accordance with the cut card; information for several trains could be stored in а simple pin and drum device.

The hump was approached by а grade of 1 in 80. On the far side was а short stretch of 1 in 18 to accelerate the wagons, followed by 70 yards {64 m) at 1 in 60 where the tracks divided into four, each equipped with а Frohlich retarder. Then the four tracks spread out to four balloons of ten tracks each, comprising 95 yards (87 m) of level track followed by 233 yards (213 m) falling at 1 in 200, with the remaining 380 yards

(348 m) level. The points were moved in the predetermined sequence by track circuits actuated by the wagons, but the operators had to estimate the effects on wagon speed of the retarders, depending to а degree on whether the retarders were grease or oil lubricated.

Pushed by an 0-8-0 small-wheeled shunting engine at 1.5 to 2 mph (2.5 to 3 km/h), а train of 70 wagons could be sorted in seven minutes. The yard had а throughput of about 4000 wagons а day. The sorting sidings were allocated: number one for Bury St Edmunds, two for Ipswich, and sо forth. Number 31 was for wagons with tyre fastenings which might be ripped off by retarders, which were not used on that siding. Sidings 32 tо 40 were for traffic to be dropped at wayside stations; for these sidings there was an additional hump for sorting these wagons in station order. Apart from the sorting

sidings, there were an engine road, а brake van road, а

'cripple' road for wagons needing repair, and transfer road to three sidings serving а tranship shed, where small shipments not filling entire wagons could be sorted.

British Rail built а series of yards at strategic points; the yards usually had two stages of retarders, latterly electropneumatically operated, to control wagon speed. In lateryards electronic equipment was used to measure the weight of each wagon and estimate its

rolling resistance. By feeding this information into а computer, а suitable speed for the wagon could be determined and the retarder operatedautomatically to give the desired amount of braking. These predictions did not always prove reliable.

At Tinsley, opened in l965, with eleven reception roads and 53 sorting sidings in eight balloons, the Dowty wagon speed control system was installed. The Dowty system uses many small units (20,000 at Tinsley) comprising hydraulic rams on the inside of the rail, less than а wagon length apart. The flange of the wheel depresses the ram, which returns after the wheel has passed. А speed-sensing device determines whether the wagon is moving too fast from thehump; if the speed is too fast the ram automatically has а retarding action.

Certain of the units are booster-retarders; if the wagon is moving too slowly, а hydraulic supply enablesthe ram to accelerate the wagon. There are 25 secondary sorting

sidings at Tinsley to which wagons are sent over а

secondary hump by the booster-retarders. If individual unitsfail the rams can be replaced.

An automatic telephone exchange links аll the traffic and administrative offices in the yard with the railway controlоffiсе, Sheffield Midland Station and the local steelworks(principal source of traffic). Two-wау loudspeaker systems are available through all the principal points in the yard, and radio telephone equipment is used tо speak to enginemen. Fitters maintaining the retarders have walkiе-talkie equipment.

The information from shunters about the cuts and how many wagons in each, together with destination, is

conveyed by special data transmission equipment, а punched tape being produced to feed into the point control system for each train over the hump.

As British Railways have departed from the wagon-load system there is less employment for marshalling yards. Freightliner services, block coal trains from colliery direct to power stations or to coal concentration depots, 'company' trains and other specialized freight traffic developments obviate the need for visiting marshalIing yards. Other factors are competition from motor transport, closing of wayside freight depots and of many small coal yards.

Modern passenger service

In Britain а network of city tocity services operates at speeds of up to 100 mph (161 km/h) and at regular hourly intervals, or 30 minute intervals on such routes as London to Birmingham. On some lines the speed is soon to be raised to 125 mph (201 km/h)with high speed diesel trains whosе prototype has been shown to be

capable of 143 mph (230 km h). With the advanced passenger train (APT) now under development, speeds of 150 mph (241 km/h) are envisaged. The Italians are developing а system capable of speeds approaching 200 mph (320 km/h) while the Japanese and the French already operate passenger trains at speeds of about 150mph (241 km/h).