The year is 1894. You are designing a train system for a large city. Your boss informs you that the mayor’s office wants assurances that trains can’t have wrecks. The system will start small, but it is going to get big and complex over time with tracks crossing and switching. Remember, it is 1894, so computing and wireless tech are barely science fiction at this point. The answer — at least for the New York City subway system — is a clever system of signals and interlocks that make great use of the technology of the day. Bernard S. Greenberg does a great job of describing the system in great detail.
The subway began operation in 1904, well over 30 years since the above-ground trains began running. A clever system of signals and the tracks themselves worked together with some mechanical devices to make the subway very safe. Even if you tried to run two trains together, the safety systems would prevent it.
On the face of it, the system is very simple. There are lights that show red, yellow, and green. If you drive, you know what these mean. But what’s really interesting is the scheme used at the time to make them light.
Smart Rails
These days we make everything “smart.” If it were done today, the tracks would be billed as smart tracks because they can tell if a train is on them. The system was built with 1,000 foot blocks of track that are electrically isolated from each other. The total system in New York has almost 15,000 blocks. If a train has wheels on a block it will short the two rails in that block together. Without the train, the two rails show as an open circuit. So each block (sometimes called a circuit or a section) is basically a switch where the train itself completes the circuit.
On a single piece of track, a particular signal will turn red when a block is occupied. Adjacent blocks may also turn red based on how long it takes to stop a fully-loaded train. For the New York subway, a red light also raises a train stop which is a T-shaped bar that is usually just at track level. When the light is red, the bar will engage a trip cock under each car. The trip cock removes power from the wheels and applies emergency braking. So — barring some sort of mechanical failure — a train trying to pass a red light will stop even if the engineer doesn’t want to stop.
Up until 1970, trains would sometimes override the train stop mechanism. This was made against the rules after — you guessed it — there were several collisions caused by overriding the safety system.
History and Evolution
Once you know where there is a train, you get into the subject of interlocks. The idea is that you shouldn’t be able to operate the tracks in an unsafe manner. So if you light a signal green for a piece of track …read more
Source:: Hackaday