DE825862C - Arrangement for remote control and monitoring of devices, especially railway safety technology - Google Patents

Description

In railway safety systems, remote control is often used made use of greater distances. The main task is to be a Large number of commands and messages via one or only a few cable cores without mutual Transferring influence. To this end, facilities have been proposed where by using so-called stepping mechanisms, each of which is connected to command or receiving points are arranged and their synchronous operation by special measures is forced, the transmission of commands and monitoring characters with the help one or less cable cores takes place. The continuously synchronous work in a similar way Scanners, which are also in phase by means of special monitoring devices to be driven.

The present invention aims, for simple cases with simpler ones Means, the command and monitoring transmission with saving of cable cores perform. According to the invention, polarized relays are cyclically reversed so connected with their excitation winding to a polyphase network that this Relays move their armature independently of one another and one after the other in time, and thus Close electrical circuits (Fig. I a).

The figures explain the invention using an example.

The phasor diagram of the multi-phase network corresponds to Fig. I b. According to fig. i a relay i is operated with the voltage ulo, relay 2 with the voltage olw. Relays 3 to 6 are connected to the other phase voltages in a similarly progressive manner.

The time course of the individual phase voltages is shown in Fig. 2 a. By using a constant direct current basic excitation it is achieved that z. B. Relay i in the period t to t2, relay 2 in the period t3 to t4, relay 3 in the following period of time t., until t, etc. comes to the pick-up. Their mode of action, d. H. the closing and opening of their contacts can be seen particularly in Fig. 2b.

The gap between the work areas is necessary to an overlap of different commands and thus an inadmissible error message to avoid.

As Fig. 3 shows, is located in the command and receiving point A or B depending on a group of these according to Fig. Ia related to the multi-phase network connected synchronous relay Ia to Ib to 6A and 6B. The contacts of these relays are connected to the transmission line L on one side. A sending or receiving circuit is assigned to the second pole. Closes z. B. synchronous relay iA its contact, then at the same moment, as a result of connection to the same phase voltage of the multi-phase network, the contact of the relay iB closed in the receiving station. There is thus a circuit from the positive pole of the power source in the command point via the command transmitter Hl, the armature contact of the synchronous relay iA, the line L, the contact of the synchronous relay iB, the receiving relay EB and the return line 0 closed. As a result, the receiving relay EB is switched to its working position according to the polarity of the current pulse and remains in this position as long as these positive current pulses persist via the contacts of the two synchronously running relays iA and iB.

When moving the assigned command lever H, into the basic position the polarity of the local power source is reversed in the supply point. So it gets the corresponding receiving relay EB current pulses, which its return to the basic position cause. Channels 2 to 6 are in the same way at the sending and receiving points switched, whereby it does not matter whether the command issue is exclusively from one or the other place or mixed.

The device described can also be used without affecting its basic principle Mode of operation changes something in connection with a scanning device or a Stepping mechanism are brought. In this way one is able to control the command and monitoring transmission of these known facilities according to the number the number of synchronous relays used.

Claims (3)

CLAIMING: i. Arrangement for remote control and monitoring of devices, in particular railway safety technology, characterized in that a group of polarized synchronous relays (i to 6) is connected cyclically to a multi-phase network (etc.) at the command point (A) and receiving point (B), that these relays respond one after the other according to the mains phases and thereby control a circuit via their contact via which, for. B. on an assigned receive relay (E), a command or a receive pulse comes about. 2. Arrangement according to claim i, characterized in that the synchronous relay (i to 6) with a negative one that precludes the overlap of different commands DC basic excitation work. 3. Arrangement according to claim i and 2, characterized in that the conversion of the receiving relay (E) at the receiving point (B) takes place when the command is withdrawn by changing the polarity of the current pulses. q .. Arrangement according to claims i to 3, characterized in that it is used to multiply the transmissions which can be carried out by means of stepping mechanisms or scanning devices. 60 65 70 75 80 85 9o 95 Aoo 105 11o