Vital protection arrangement for railroad track circuits
First Claim
1. A vital protection arrangement for alternating current track circuits in an electrified railroad with propulsion current return through the rails, each track circuit including a receiver at one end for registering the occupancy condition of the corresponding track section in accordance with the presence or absence of track current of selected characteristics, comprising,(a) a transformer having a primary, secondary, and third winding with said secondary winding coupled to said track circuit receiver,(b) a fuse having a preselected capacity coupled in series with said primary winding to the track section rails for receiving the current flowing in said rails, and(c) a capacitor connected across said third winding and having a selected value to resonate with said primary winding at the track circuit frequency,(d) said primary-capacitor resonant circuit network presenting a high parallel impedance at track circuit frequency, for passing track circuit current through said secondary winding to said receiver without exceeding the capacity of said fuse, and a low impedance at other frequencies, and(e) said fuse interrupting the circuit network to said receiver when propulsion current flowing in said primary winding exceeds the preselected capacity of said fuse.
2 Assignments
0 Petitions
Accused Products
Abstract
A tuned transformer element has its primary winding coupled, in series with a fuse of preselected rating, to the rails of the track circuit. A secondary winding supplies input energy to the track circuit receiver unit which detects occupancy conditions of the track section. A third winding is capacitor tuned to resonate with the primary winding at the track circuit frequency. Thus the transformer appears as a parallel resonant load of high impedance in multiple with the track receiver which then operates normally. At propulsion frequency, the impedance of the primary is small while the parallel capacitive reactance is large, so that the parallel network gives the transformer unit a low impedance at this frequency. If, due to unbalance in the rails, the propulsion current is large enough that its harmonics may energize the track circuit receiver to improperly register an unoccupied track section, the current in the primary winding exceeds the fuse rating and the primary circuit is opened to inhibit any track circuit receiver response.
17 Citations
6 Claims
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1. A vital protection arrangement for alternating current track circuits in an electrified railroad with propulsion current return through the rails, each track circuit including a receiver at one end for registering the occupancy condition of the corresponding track section in accordance with the presence or absence of track current of selected characteristics, comprising,
(a) a transformer having a primary, secondary, and third winding with said secondary winding coupled to said track circuit receiver, (b) a fuse having a preselected capacity coupled in series with said primary winding to the track section rails for receiving the current flowing in said rails, and (c) a capacitor connected across said third winding and having a selected value to resonate with said primary winding at the track circuit frequency, (d) said primary-capacitor resonant circuit network presenting a high parallel impedance at track circuit frequency, for passing track circuit current through said secondary winding to said receiver without exceeding the capacity of said fuse, and a low impedance at other frequencies, and (e) said fuse interrupting the circuit network to said receiver when propulsion current flowing in said primary winding exceeds the preselected capacity of said fuse.
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3. An alternating current track circuit arrangement for a section of alternating current electrified railroad with propulsion current return through the section rails, the track circuit frequency being greater than and substantially an even harmonic of the propulsion power frequency, comprising,
(a) a source of track circuit energy coupled to the rails at the exit end of said section, (b) a receiver unit coupled to said rails at the entrance end of said section and responsive to input energy of said track circuit frequency and selected level for registering an unoccupied section indication, (c) a parallel resonant unit, including a circuit interrupter with a preselected rating, coupled between said receiver unit and said rails and tuned to act as a parallel resonant high impedance circuit at said track circuit frequency, for providing track circuit frequency energy to said receiver unit from said rails, and (d) said parallel resonant unit acting as a low impedance at propulsion power frequency and responsive to levels of said propulsion current exceeding said preselected rating for interrupting the track current input to said receiver unit to inhibit registry of an unoccupied section indication.
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6. In combination with a track circuit receiver of an alternating current track circuit for a section of electrified railroad, parallel resonant transformer apparatus comprising,
(a) a primary winding, (b) a fuse of preselected capacity coupled in series with said primary winding across the section rails for receiving energy when the section is unoccupied, (c) a secondary winding coupled for supplying energy to the track circuit receiver when said primary winding is energized from said rails, (d) a third winding, and (e) a capacitor coupled across said third winding and having a value selected for resonating with said primary winding at the track circuit frequency to provide a high impedance parallel resonant circuit network which maintains current flow through said primary winding below said fuse capacity, (f) said primary winding having a low impedance at other frequencies whereby flow of propulsion current exceeding said fuse capacity interrupts the supply of energy from said rails to said track circuit receiver.
Specification