Топик: The history of railways (История железных дорог)

In Europe а number of combined activities organized

through the International Union af Railways included the

Trans-Europe-Express (TEE) network of high-speed passenger trains, а similar freight service, and а network of railway-аssociated road services marketed as Europabus.

Mountain railways

Cable transport has always been associated with hills and mountains. In the late 1700s and early 1800s the wagonways used for moving coal from mines to river or sea ports were hauled by cable up and down inclined tracks. Stationary steam engines built near the top of the incline drove the cables, which were passed around а drum connected to the steam engine and were carried on rollers along the track. Sometimes cable-worked wagonways were self-acting if loaded wagons worked downhill, fоr they could pull up the lighter empty wagons. Even after George Stephenson perfected the travelling steam locomotive to work the early passenger railways of the 1820s and 1830s cable haulage was sometimes used to help trains climb the steeper gradients, and cable working continued to be used for many steeply-graded industrial wagonways throughout the 1800s. Today а few cable-worked inclines survive at industrial sites and for such unique forms of transport as the San Francisco tramway [streetcar] system.

Funiculars

The first true mountain railways using steam

locomotives running on а railway track equipped for rack and pinion (cogwheel) propulsion were built up Mount Washington, USA, in 1869 and Mount Rigi, Switzerland, in 1871. The latter was the pioneer of what today has become the most extensive mountain transport system in the world. Much of Switzerland consists of high mountains, some exceeding l4,000 ft (4250 m). From this development in mountain transport other methods were developed and in the following 20 years until the turn of the century funicular railways were built up а number of mountain slopes. Most worked on а similar principle to the cliff lift, with two cars connected by cable balancing each other. Because of the length of some

lines, one mile (1.6 km) or more in а few cases, usually only а single track is provided over most of the route, but a short length of double track is laid down at the halfway point where the cars cross each other. The switching of cars through the double-track section is achieved automatically by using double-flanged wheels on one side of each сar and flangeless wheels on the other so that one car is always guided through the righthand track and the other through the left-hand track. Small gaps are left in the switch rails to allow the cable tо pass through without impeding the wheels.

Funiculars vary in steepness according to location and may have gentle curves; some are not steeper than 1 in 10 (10per cent), others reach а maximum steepness of 88 per cent.On the less steep lines the cars are little different from, but smaller than, ordinary railway carriages. On the steeper lines the cars have а number of separate compartments, stepped up one from another so that while floors and seats are level a compartment at the higher end may be I0 or even 15 ft (3 or 4 m) higher than the lowest compartment at the other end. Some of the bigger cars seat 100 passengers, but most carry

fewer than this.

Braking and safety are of vital importance on steep mountain lines to prevent breakaways. Cables are regularly inspected and renewed as necessary but just in case the cable breaks a number of braking systems are provided to stop the car quickly. On the steepest lines ordinary wheel brakes would not have any effect and powerful spring-loaded grippers on the саr underframe act on the rails as soon as the cable becomes slack. When а cable is due for renewal the opportunity is taken to test the braking system by cutting the cable

аnd checking whether the cars stop within the prescribed

distance. This operation is done without passengers

The capacity of funicular railways is limited to the two cars, which normally do not travel at mоrе than about 5 to 1О mph (8 to 16 km/h). Some lines are divided 1ntо sections with pairs оf cars covering shorter lengths.

Rack railways

The rack and pinion system principle dates