DE4221779A1 - Notification system - Google Patents

Abstract

The invention relates to a signalling system which exhibits at least two separately arranged detector elements (2 and 4, respectively) which are in each case fed by a separate voltage source (U1 and U2, respectively) and which output indicating signals to a signalling device (5 and 6, respectively) allocated to each detector element (2 and 4, respectively), in which signalling system a monitoring element (10, 19 and 14, 22, respectively) is also allocated to the supply system of each detector element (2 and 4, respectively), which monitoring element, in the event of a voltage failure in the corresponding supply system, outputs an indicating signal to the signalling device (5 and 6, respectively) allocated to the relevant detector element (2 and 4, respectively) in dependence on the supply voltage of the other detector element (4 and 2, respectively). This makes it possible to monitor the failure of a voltage source. <IMAGE>

Description

The invention relates to a reporting system.

Reporting systems are common for certain reasons two similar, electrically powered detectors elements used. For track systems, these are e.g. B. wheel sensors. Especially when using such sensors Delivered messages important for operational safety proper electrical supply of these detectors are monitored. The failure of the Supply voltage of a detector could be recognized immediately be when the detector in question receives a continuous signal supplies, for example, according to the open-circuit principle is working. However, many sensors only deliver certain Operating status message signals so that from the absence from signal signals not to a possibly occurred Power failure can be closed.

The invention has for its object a track alarm system in which a multi-channel power supply for the detector elements is provided in such a way that an active fault message if one of the suppliers fails voltage with the least possible technical effort is possible.

A reporting system that solves this task is implemented by the Claim 1 described. With this reporting system are the existing reporting devices additionally for reporting a failure of one of the  Supply voltages used. So it is needed in everyone Supply circuit only detect a power failure of the monitoring element to be arranged.

An extremely low technical effort results from a reporting system designed according to claim 2. Is in addition to the supply voltages of the detector elements There is still a separate signaling voltage, then it is advantageous to change the reporting system according to the paint claim 3 to perform.

For security reasons, the use of a the reporting system corresponding to claims 1, 2 or 3 especially indicated when it comes to track systems acts and the detector elements are wheel sensors that over two galvanically isolated secondary windings one Transformer are fed. By means of such a wheel The occupancy status of track sections becomes sensors checked so that it is necessary for security reasons the failure of the supply voltage of one of the sensors to grasp immediately.

It is also useful to report the power failure message one monitoring element in terms of potential from the others the mel fed to the relevant reporting device separations. Such isolation is particularly easily possible using an optocoupler.

Based on an execution shown in the drawing for example, the invention will be described in more detail below described. It shows:

Fig. 1 shows a circuit example of a reporting system,

Fig. 2 shows a circuit example of a signaling system with a separate signaling voltage.

A first detector element 2 is connected to the connection terminal 1 of a first voltage source U1. In the same way, a second detector element 4 is connected to the connection terminal 3 of a second voltage source U2. The signal signals emitted by the detector elements 2 and 4 are each fed to a first or second signaling device 5 or 6 . The received signal signals are either directly or after appropriate preparation or processing in the signaling device 5 or 6 via its outputs 7 or 8 to a higher-level detection point, for. B. forwarded to an interlocking.

The diode path 9 of a first optocoupler 10 is also connected to the connection terminal 1 of the first voltage source U1. The switching path 11 of this optocoupler 10 lies in one of the connecting terminal 3 of the second voltage source U2 to the first signaling device 5 leading signal line 12th

The diode path 13 of a second optocoupler 14 is connected in an analogous manner to the connecting terminal 3 of the second voltage source U2. Its switching path 15 lies in a signal line 16 leading from the terminal 1 of the first voltage source U1 to the second signaling device 6 .

If one of the voltage sources U1 or U2 fails, the optocoupler 10 or 14 connected to the corresponding voltage source no longer receives any voltage, so that its switching path 11 or 15 is closed. This means that the pending signaling device 5 or 6 at the corresponding input of the relevant message goes out. Due to the disappearance of this signal, the relevant signaling device 5 or 6 at one of the outputs 7 or 8 issues a corresponding message to the higher-level detection point, so that the failure of one of the voltage sources U1 or U2 is immediately recognized and appropriate measures to restore the proper power supply can be initiated.

The embodiment variant shown in FIG. 2 shows a signaling system which, in addition to the supply voltages U1 and U2 for the detector elements 2 and 4, also has a separate signaling voltage U3. In this variant, the optocouplers 10 and 14 connected to the respective supply voltage U1 or U2 with their diode path 9 or 13 are each assigned a further optocoupler 19 or 22 . The switching path 11 or 15 of the supply voltage U1 or U2 lying at the optocoupler 10 or 14 is in each case with the diode path 18 or 21 of the associated further optocoupler 19 or 22 in parallel with the other supply voltage U2 or U1 connected.

The switching path 20 or 23 of the further optocoupler 19 or 22 is in the from the connection terminal 17 of the signaling voltage U3 to a signaling input of the relevant signaling device 5 or 6 leading signal line 12 or 16th The signaling voltage U3 also serves as the supply voltage for the signaling devices 5 and 6 .

This circuit variant works as follows:

If one of the supply voltages U1 or U2 fails, the optocoupler 10 or 14 connected to the corresponding supply voltages U1 or U2 no longer receives any voltage, so that its switching path 11 or 15 is activated. As a result, the diode path 18 or 21 of the further optocoupler 19 or 22, which was short-circuited via the switching path 11 or 15, is energized and its switching path 20 or 23 is controlled. The notification device 5 or 6 thus receives a notification signal via the notification line 12 or 16 . On the basis of this message signal, the relevant message device 5 or 6 then forwards a corresponding message to the higher-level detection point.

In contrast to the circuit according to FIG. 1, in which a message is triggered by the disappearance of a message signal at the input of the message device 5 or 6 , this occurs in the circuit variants according to FIG. 2 when a message signal of the message device 5 or 6 occurs .

Claims (6)

1. Signaling system, which has at least two separately arranged detector elements ( 2 or 4 ), each of which is fed by a separate voltage source (U1 or U2) and the signal signals to a detector ( 5 or 4 ) assigned to each detector element ( 2 or 4 ) . 6 ) in which reporting system is also assigned to the supply path of each detector element ( 2 or 4 ) a monitoring element ( 10 , 19 or 14 , 22 ) which, in the event of a power failure in the corresponding supply path, depends on the supply voltage of the other detector element ( 4 or 2 ) emits a signal to the signaling device ( 2 or 4 ) assigned to the detector element concerned ( 5 or 6 ). 2. Signaling system according to claim 1, characterized in that the monitoring element is an optocoupler ( 10 or 14 ), the diode path ( 9 or 13 ) to the supply path of the respective detector element ( 2 or 4 ) and its switching path ( 11 or 15 ) is connected to the supply path of the other detector element ( 4 or 2 ). 3. Signaling system according to claim 1, with an additional to the voltage sources for the detector elements signaling voltage source, characterized in that the monitoring element consists of two optocouplers ( 10 and 19 or 14 and 22 ), the diode path ( 9 and 13th ) of an optocoupler ( 10 or 14 ) of the monitoring element to the supply path of the respective detector element ( 2 or 4 ) and the switching path of the relevant optocoupler ( 10 or 14 ) parallel to the diode path ( 18 or 21 ) of the other optocoupler ( 19 or 22 ) of the monitoring element to the supply path of the other detector element ( 4 or 2 ) is connected and that through the switching path ( 20 or 23 ) of the other optocoupler ( 19 or 22 ) of the monitoring element the signaling voltage (U3) can be switched to a signaling input of the signaling device ( 5 or 6 ) assigned to the detector element ( 2 or 4 ) concerned. 4. Signaling system according to claim 1, 2 or 3, for track systems, characterized in that the two detector elements ( 2 and 4 ) are wheel sensors which are fed via two galvanically isolated secondary windings of a transformer. 5. Signaling system according to one or more of the preceding claims, characterized in that the voltage failure message of the monitoring element in the signaling device ( 5 or 6 ) is electrically isolated from the other messages. 6. Reporting system according to claim 5, characterized, that the potential separation takes place by means of optocouplers.