Track circuit interrupter

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An insulated track circuit interrupter fitted to trap points
An insulated track circuit interrupter fitted to trap points

A track circuit interrupter may be fitted at catch points, trap points or buffer stops to maintain a track circuit in the 'occupied' state in the event of a derailment. The track circuit remains de-energised until the interrupter is replaced.

Contents

[edit] Application

[edit] At catch or trap points

Trap points or catch points are designed to intentionally derail vehicles making an unauthorised movement. When a vehicle derails completely, its wheels cease to shunt the track circuit. Since the vehicle might still be foul of the track, it is important to maintain the track circuit in the 'occupied' state. To achieve this, a cast iron interrupter is fitted to one of the run-off rails such that it will be struck by the wheels of a vehicle that is about to be derailed. Since the track circuit is bonded via the interrupter, it is proved to be intact when the track circuit relay is energised.

[edit] At buffer stops

A track circuit interrupter may be fitted behind a friction buffer stop. In the event of the buffer stop being struck by a train and pushed along, an adjacent line may potentially be fouled. Breaking the interrupter causes the adjacent track circuit to show 'occupied' until the interrupter is replaced.

[edit] Insulated and non-insulated interrupters

Originally, track circuit interrupters were directly connected to the rail, both physically and electrically. One of the track circuit tail cables would be connected to the interrupter, it being connected to the rail. If the interrupter was broken, it was possible that the broken part, with cable still attached, could drop onto the rail and allow the track circuit to remain energised and show 'clear'. To overcome this, it is now practice for track circuit interrupters to be insulated from the rail to which they are attached. A track circuit cable is taken via the interrupter, with one end connected to the upper part of it and another end to the lower part. The cable is at opposite polarity to the rail, therefore should the broken part of the interrupter drop onto the rail, the track circuit will be short circuited and show 'occupied'.

[edit] Provision of Overlaps, Flank Protection and Trapping

GK/RT0011 specifies the requirements for the provision of track circuit interrupters. Where vehicles derailed at trap points could foul lines other than the ... [1]

[edit] Diagram

Interrupter drawn as two filled triangles. Assume train has overrun 53 signal and 52A trap points and interrupter shows DBT T.C. on Down Line as blocked (twin red lights).
Interrupter drawn as two filled triangles. Assume train has overrun 53 signal and 52A trap points and interrupter shows DBT T.C. on Down Line as blocked (twin red lights).

In the UK, the interrupter is shown on signal box diagrams as two closed triangles inside the points.

[edit] Accidents

[edit] Melton Mowbray

Rail Accident Report 33 - a track circuit interrupter is fitted to the trap points beyond signal 53 so ... track circuit interrupter and cause signals 51 and 22 if they have been ... [2]

[edit] Failure

JOINTLESS TRACK CIRCUIT

Mechanical failure of track circuit interrupter. Failure rate:. 4.66E-04. per year per item of equipment. Unavailability:. N/A. per item of equipment ...

[3]

[edit] Treadles

Track circuit interrupters are similar to treadles, the main difference being that interrupters remain open circuit once opened, whereas treadles reclose after activation.

[edit] See also

[edit] References