DE820721C - Signaling system with closed-circuit loops and power supply from the network - Google Patents

Description

Signaling system with closed-circuit loops and power supply from the network In signaling systems with closed-circuit loops, it is known to switch the power supply directly out of your network. For this purpose there are rectifiers for each quiescent current line provided, which are fed via secondary windings of a mains transformer. If the grid fails or the grid voltage falls below a certain value,% v will switched by switching means to an artificial alternating current network, which consists of a Battery is fed via a converter set.

In systems of this type, when switching over, an if Do not avoid even a short interruption of the loop quiescent current. [at rest the system can do this by means of a correspondingly measured delay in the switching relays be rendered harmless. However, if the switchover occurs during a message run-in is carried out, this changeover causes malfunctions in the incoming message. So can individual impulses are lengthened or additional due to the additional interruption Impulses are given.

The invention overcomes these difficulties in that each Commissioning a loop switching means are operated independently of the Voltage of the lighting network the switchover of the rectifier to the artificial alternating current network arrange for the duration of the report.

Appropriately, this switch is made in such a way that the during commissioning the loop actuated switching means to the Acting switching means already provided for monitoring the voltage of the lighting network and bring about the same switching status in them as if the lighting network fails entry.

In signaling systems of the type indicated, it is common to start up a loop line first the loop quiescent current through the sending detector Interrupt for a long time and only after closing the loop for a to send out the current impulses characterizing the detector for a predetermined period of time. the introductory interruption serves to reset any receiving devices that are still set. You can according to a further feature of the invention, together with the following, closing of the loop for a predetermined period of time for activation of the converter and the switchover to the artificial alternating current network will.

An embodiment of the invention is shown in the drawing, which only contains the parts of a signaling system required for the essence of the invention, shown.

In this exemplary embodiment, three signaling loops i, 2 and 3 are provided, which are connected via smoothing devices Dr to rectifiers Gl which are fed from secondary windings of a transformer T. In order to enable an undisturbed message entry even in the event of a wire break and earth fault, the loops are in the known Morse code safety circuit. The transformer T is equipped with two primary windings, one of which is fed from the network and the other 'from the converter M. The network is continuously monitored for its voltage state by relay N. The converter set M is fed from an operating battery Ba i and can be switched to a reserve battery Ba 2 when this battery is being charged.

During normal operation, relays R and N are energized. By means of the contacts yi and r2 , the converter M is switched off both on the primary side from the battery and on the secondary side from the transformer. The contact r 3 has connected the network to the primary winding of the transformer.

When a message arrives via one of the loops, the first extended interruption of the loop quiescent current causes relay Sa to drop out. In the receiving device associated with this loop, the relay Y, which is delayed by a capacitor connected in parallel so that it persists during the actual message output, drops out due to the first extended interruption of the loop quiescent current. Contact sa brings relay A, which short-circuits its first winding AI via contact a--. The contact a 6 applies voltage to the relay B, which cancels the short circuit of the relay H by moving the contact b4. Another contact b 6 of the relay B, together with the contact v 2, brings the relay U, which continues through its own contact u4. Relay C is made to respond via contacts u 5 and H 5.

With contact c2, relay C is placed in a holding circuit, and with its contact c i it prepares the connection of the relay I.

If the detector closes the current loop again for a predetermined period of time, the relay 11 responds and now applies voltage to the relay J with its contact v 2 via the contacts rv 2 and ci. This remains through its contact throughout the reporting process i 5. By switching the contact sa, the relay A also comes down with a delay time caused by the short circuit of its one winding, but during this closure of the loop and during the subsequent message sequence, the relay C cannot come down because the Relays B, H, C, which can only be thrown off by short-circuiting their windings, form a delay chain through the closed contact c4, via which the relay C is held until the message is terminated. The contact i 4 now causes the relay RA to respond, which actuates its contact ra and causes the relay N, which is also used for network monitoring, to drop out. The contact n causes the relay R to drop out, and this closes its contacts r i and r 2 while at the same time the contact r3 is opened. As a result, the converter M is switched on both on the DC side and on the AC side to the second primary winding of the transformer T, while the mains supply winding is disconnected through r 3. The regulation of the converter M to its predetermined speed takes over the centrifugal switch F, via which a contactor S can be made to respond, which can switch resistors in the converter circuit on and off with the contact s. Since the relay H is continuously energized while the message is being sent, all messages are passed through the closed contact h in the Morse code security circuit. If the message is finished, then after a delay time caused by the relays A, B and H , the relay C drops out and opens the circuit for the relay J through its contact ci Relay N, the original connection of the message loops to the network is restored.

Claims (3)

PATENT CLAIMS: i. Signaling system with closed current loops and power supply from the network via a rectifier assigned to each closed-circuit current loop, which at Lowering of the voltage of the network by switching means on one from a battery over Artificial alternating current network fed by a converter and shared by all closed-circuit current loops can be switched, characterized in that at each start-up a loop switching means (J) actuated be that independent from the voltage of the lighting network, the switching of the rectifier to the artificial one Arrange for the alternating current network for the duration of the message. 2. Signaling system according to claim i, characterized in that the actuated when starting a loop Switching means (1) to the switching means (N, R) for monitoring the voltage of the lighting network take effect and bring about the same switching state as that in the event of a failure of the lighting network entry. 3. Signaling system according to claims i and 2, characterized in that before Submission of a message for commissioning the loop line of the detector during a longer time interrupts the loop quiescent current and then for a predetermined Time the loop closes again.