DE3139068A1 - Track circuit arrangement - Google Patents

Abstract

In order to detect line-to-line contacts and couplings of lines (V1, V2) between an actuator (SW) and a plurality of receivers (E1, E2), which can be influenced by a transmitter (S), of multifrequency track circuit arrangements, the lines are routed via in each case one transformer (T1, T2). The latter has a centre tap on its winding assigned to the respective receiver (E1, E2). Via the said centre tap, an identifier signal is impressed whose desired state is continuously monitored. A deviation from the desired state indicates a defect. <IMAGE>

Description

Track circuit arrangement

The invention relates to a track circuit arrangement for successive Track sections in which a transmitter is assigned to a respective track section each impresses a section-specific alternating frequency signal, its presence can be monitored by at least one assigned receiver, in each case the connection line of all transmitters with a feed point and the connection lines in each case all receivers combined with a processing device in one cable are.

In railway signaling technology, the Mainline or station tracks are often used track circuits. Monitor these track sections delimited by insulating joints or special connectors, whether these are occupied by vehicles. The axles of the vehicles are used, which short-circuit the rails when occupying a track section and thereby the signal stream of a transmitter at one end of this section to one Interrupt the receiver at the other end of this track section. Consecutive Track sections are given a number of frequencies that are different from one another Frequencies assigned (DE publication 't Sound frequency track circuit with electrical TrennstoB ", Siemens AG, Order No. F 532/105).

The transmission line is transmitted to the track via connecting lines from a feeding point in a signal box. The forwarding also takes place of the track spans to be assessed for the occupancy via connecting lines in the signal box. For reasons of cost, it is advisable to use the connecting lines summarized in KaDeln. With AC track circuits you have to avoid unwanted Avoid influencing the lines to the transmitters and the lines too the receivers must each be routed in separate cables, otherwise due to short circuits or due to coupling in the event of asymmetry, an incorrect feedback from transmitters associated recipients cannot be ruled out0 This guarantees9 that The transmitter and receiver are safely decoupled from each other9 but can if the lines of several transmitters or receivers of the same frequency in terms of spatiality separate track circuits are routed in a common cable Line contact or

Couplings lead to incorrect vehicle location0 Because everyone Track circuit has a specific identifier in addition to a specified frequency is assigned, but can for the case 9 that only one transmitter and one receiver work together, incorrect location can be excluded.

However, when multiple receivers are assigned to a sender, like this with turnouts and crossings or with center-fed track circuits is the case, is achieved solely through the use of section-specific alternating frequency signals not guaranteed that touches or couplings of the lines of the receiver are reliably recognized with each other0 The object of the invention is, even if several receivers are assigned to a single transmitter9 incorrect line contacts or couplings can be reliably recognized.

According to the invention, this object is achieved in that in the Connecting lines of those recipients, the to several one Transmitters are assigned, a transmission is switched, whose on the part of the receiver arranged winding has a center tap that each center tap a specific Identification signal of a signal source can be fed and that only in the unaffected state of all signal sources a perfect condition of the track circuit arrangement can be signaled is.

An advantageous embodiment of the invention is characterized in that that a direct current is provided as the identification signal. Line errors would be with a impressed direct current cause voltage fluctuations, which in technically extreme can be detected easily.

But it is also possible that a direct voltage is provided as the identification signal is. In this case line faults would lead to changing currents can also be monitored without a particularly large technical effort.

An embodiment of the invention is shown in the drawing and is explained in more detail below.

The illustration shows a track GL in the form of a block diagram, the vehicles, not shown for the sake of clarity, can be driven on. The track GL is divided into individual track sections I, II1, II2 and III, whereby the track sections I and II1 or the track sections II2 and III by so-called S-connector S1 and S2 are separated from each other, each with receivers Ei or E2 are connected. These monitor the presence of a from a transmitter S. AC frequency signal fed in between track sections Iii and II2. If a vehicle occupies track section III or II2, the voltage drops of the alternating frequency signal received by the receiver Ei or E2 jumped good. The alternating frequency signal of the transmitter S can (4Et with an additional identification signal modulated or

be supplemented with an additional identification signal, with a clear assignment of the transmitter S to the receiver pair E1 and E2. The transmission power is the transmitter S supplied by a generator G arranged in a signal box SW Only a few track sections are shown in the illustration. The connecting lines of the transmitters, not shown for the sake of clarity, for the track sections 1 and III and further track sections of the track GL with the generator G run together in one cable - indicated by dashed lines -O If a vehicle has the section III occupied, the alternating frequency signal of the transmitter S no longer reaches the Receiver E1. A corresponding signal then arrives via a connecting line V1 Via a transformer T1 to a converter U1, which shows the busy state of track section III is detected and this condition is transmitted to a processing device V reports. In a corresponding manner, occupying the track section II2 triggers a vehicle via a connecting line V2, a transformer T2 and a converter U2 a busy message in the processing device V from.

The connecting lines V1 and V2, as well as all other connecting lines between the interlocking SW and the receiver, not shown for the sake of clarity along the track GL are shown in dashed lines in a common cable KE - guided for all recipients.

The transformers TI and T2 have their receivers E1 and E2 facing windings each have a center tap. The transforma- mater T1 connected to a voltage source Q7 via a series resistor Rl, while the transformer T2 is connected to a voltage source Q2 via a series resistor R2 is. The voltage sources Q1 and Q2 are located on one for each receiver EI or E2 different potential. Touching the connecting lines V1 and V2 would lead to a current flow via the resistors R1 and R2, whereby the from a converter U3 or U4 to the observance of a predetermined setpoint monitorable voltage would change its value. The converters U3 and U4 deliver at No output signal on AND element UG, which causes the processing device V to detect a defect in the track circuit arrangement is reported.

1 Figure 3 claims

Claims (3)

Claims 1. Track circuit arrangement for successive track sections, in which a transmitter is assigned to a respective track section a section-specific alternating frequency signal enters its presence can be monitored by at least one assigned receiver in each case, with the connecting lines of all transmitters with a feed point and the connecting lines in each case all receivers with a processing device combined in one cable sind9 d a d u r c h g e -k e n n n z e i c h n e t that in the connecting lines (vi, V2) of those receivers (EI, E2) 9 which are assigned to several of a transmitter (5) sind9 a transmitter (Tl, T2) is connected, whose on the side of the receiver (E1, E2) arranged winding has a center tap that each center tap a specific identification signal of a signal source (Q1s Q2) can be fed and that only if all signal sources (Q1, Q2) are in a perfect condition the track circuit arrangement can be signaled. 2. Track circuit arrangement according to claim 1, d a -d u r c h g e k It is indicated that a direct current is provided as the identification signal. 3. Track circuit arrangement according to claim 1, d a -d u r c h g e k It is indicated that a direct voltage is provided as the identification signal.