DEP0045937DA - Remote control device for the transmission of messages, commands or the like, especially in railway security - Google Patents

Description

Sernsteuereeinriofatang for the transmission of messages

Commands odjWN derg ] j84 ®fafts, ^jst ^ f ^j -e-- "■ In iisenbahn fuse being ITeldungen are often _i

Commands, feedback or the like sent over long distances from one station to another. Tn some are en i'all also served by a central out more on-the outstations, ie individual advantages · sing on a station as ζ .ae. the conversion of a Uieiche ₇ the setting of an entire route, the appearance of a signal, a train number or other requirements can be done from a central station. Step switches are often used for the transmission of the messages, whereby the step switches in the central station and the one at the respectively selected station rotate synchronously. Jieeer synchronous circulation is relatively easy to accomplish if you can switch the two step switches one after the other. "This becomes more difficult if the lines leading along the route are located in the vicinity of high-voltage skabe In or the like, so that So you have to separate the station from the control center by means of a transmitter. In spring Jalle the Ui "§ * must be given friendliness when the step switch occurs except fall to bring *" them back into matching location. This could be by special jsänke the Schrittsohaltern manufacturers beiführen.

The invention never brings a more advantageous device to bring step switches that have fallen out of step back into step. Mes happens according to the invention in that on each S / batj.on jfin μ ± $ Ver ζc ^ ge ru ^ ng ^ work ^ e ^^^^ a ^ s, vjrg ese he ηΓΤ ^^ ϊβ se en ° Tefzög el ? uTrg "W ^'= Wme ^^ 2eit bridges required for the step switch to go from one step to the next and said Äelais sets iätigkeit of from the Sohrittschalterxin once it has come to a standstill during a Uwlaufens _t during the normal running of the step switch would not respond, because the delay is longer than the time interval between two steps of the step switch. If the step switch remains, however, the delay expires, the relay responds and sets the step switch in motion, Z ₀ B »by applying voltage to the Jirehmagnet * However, the arrangement can also be made in such a way that the delayed xie relay responds at the beginning of each cycle of the step switch and the circuit is set up in such a way that it drops out of the Uelais, before the cycle of the step switch is completed, leads to intervention, ie therefore to switching on the ^ rehmagneten, whereby the synchronization is initiated.

The subject of the invention is explained in the figures for example

Here it is assumed that when a command is given _for * £> * if a route is to be set on station 2 ^ a key is pressed or a drive! which initiates this command «It then happens when the! button is pressed, the selection of a free line automatically in any IP format, if there are several lines, followed by the selection of the relevant station and as soon as the connection between this station and the control center is established the command is now transmitted. In this description uses while line selection and station selection in Aer ^ this not be described in detail need. As soon as the command transmission is now to begin, the contact S 1 is closed and a current transmission takes place via the control relay S 10 and the transformer U 1, the line pair L 1, transformer U 2, control relay S 20 on the controlled station. By pulling on S 20, the current to a relay S 40 can be closed directly or indirectly via a relay S 50 and the A He Iais S 20 is on the line L 1 and thus to the relay S 10 zurüoko Hereby the change of the impulses from £ ent rale to the station and from there back to the control center is initiated. However, in order to create a far greater security against wrong command transmission, falling out of step, etc., further means are used in the present example, namely to the effect that, in addition to the line pair L 1, a line

Pair L 2 /

pair of L 2 used for control. A control bank is now connected to this line pair L 2 on each station and on the control center * Just as the control banks L 1, K 11 belong to L 1, the two control banks K 2, JC 21 belong to line L 2. JC 1 and t 2 are but on the same step switch, as K 11 and K 21 and they are therefore of the same rotary magnet D1 be tw "D 2 operated There are now on the control banks alternately the steps of occupied and unoccupied" is When K 1 Q occupied, 1 unoccupied, 2 occupied, 3 unoccupied, etc. At a . 2 on the other hand, 1 occupied, 2 unoccupied, 3 occupied, etc. , also on the individual stations ₉ Serner alternating plus and minus pulses are sent over the line and in this Sali instead of the usual relay -sr. tw (S 10, S 20, S 50 and S 60) polarized relays are used. This has the effect that when the step switch stops, ζ JB. at a station, the next impulse cannot get through « Benn is sent a ζ · £ · einjpius impulse and the polarized relay of the receiving station waits for a minus impulse, so the plus impulse cannot have any effect and the sending step switch also stops the plus and Iiinusimpulse can ollow in several silent erf. Kan eleht ZaB that a center tap is provided on the secondary winding of the transformer S 5, from which a line L 3 leads to the transformer TJ 1. When closing the Jicntaktes S 2, depending on whether the contacts in the line L 4 or L 5 are closed, a plus or minus pulse is sent via the transformer Ü 1. At the contact bank · H 2 fet 'the transmission of positive and negative pulses, for example, in

other Porm "caused, namely by reversing the polarity of the line» Ler impulse takes place again by closing a contact S Tl, whereby depending on whether S 4 or S 5 are closed, an I ³ Ius or minus pulse is transmitted via the transformer ü 3. In order to get only the respectively desired impulse, i.e. plus or liinus, into the respective line, the arrangement is made in such a way that the secondary circuit is interrupted before an undesired impulse can come in, i.e., one only wants the impulse at Send closing of S 71 to the line L 6, so the contact S 4 Ι / ^ ΐΐΓΐ ^ ΐΓ * ^ must be interrupted before S71 is interrupted again, so that the pulse generated when the contact S71 is interrupted does not enter the line L 6 can reach »Uaoh that now the relay S 10 by first shifting to the right s and then to the left has set the rotary magnet en i> 1 directly or indirectly into activity, for which you can also use auxiliary relays, the movement of the conta takes place ktarms of the individual banks to step 1. The rotary magnet D 2 on the station receives power at the same level and also moves the step switch located there to the first step. At bank K 1 1 is unoccupied, so no impulse can be sent from here, whereas at iL 2 step 1 is occupied and an impulse can now be given via this, which comes about in the following quietly . When the arm moves from k 3 to step 1, relay S 70 receives power and closes contact S 71, through which the pulse via I 6, step 1 of bank i 2, S 5β · line L 2 to the relay S 60 is given. *> ie anchor of

RelaiB S 50 and S 60 change their position, öle nelai * S 80 and S 90 receive current via contacts S 51 and S 61. Via step 1 of contact bank K 31, Ke- Iais S 100 received current and thus the circuit of the rotating magnet s D 2 is interrupted by the contact S 102, purch the contact S 91 is gebraoht after tightening of the xtelais S 90, üelais S 100 again to drop, thereby closing again the circuit of the rotary magnet υ 2, so that the step switch comprises a further step power and thus the contact arms move to step 2, as well as 72 of the iielais S 70, the rotary magnet D 1 is controlled in the control center via the contact S has been so that simultaneously with the Schrittsohel ter of the station and the step switch in the central office to the Sohritt 2 arrives. The section 2 at the contact bank k 21 is unoccupied, on the other hand occupies at the contact bank k 11 and now takes place a pulse duroh Close dee contact S 101 via the Iran format or X 7 and the step 2, Äelais S 20, line L 1, Kelais S 10 in a manner similar to that described at the beginning. The generation of plus and minus pulses takes place at the station in a similarly quiet manner as in the control center. In addition to the control banks, there are now corresponding command and communication banks in the control center as well as at the station, which are here with K 4 and JC 5 respectively . L x 41 and K 42 are designated. The command banks can also be used permanently as feedback banks «

If the step switch would now fall out of step, i. If the position of the controlled step switch no longer corresponds to that of the sending step switch , the following process would take place * Let us assume that the step switch on the station has stopped at step 3. S lüC is attracted via the two contacts S 39 and S96. As a result, the contact S $ 09 is interrupted and since contact G 11 on the basic position relay G 10 is also interrupted, relay E 10 drops out. This relay E 10 closes a contact E 11 so that the rotating magnet ν 2 receives current and sets the step switch in motion » R 12 activates the interrupter relay U 10, which switches off the repeater magnet and so on until the The selector is in the basic position again · »The relay E 10 is delayed, e.g.« B » by a capacitor K 90, whereby this delay is dimensioned in such a way that it bridges the time interval from one step to the other during the normal rotation of the step switch · During normal rotation, the brief overshooting of contact S 109 cannot trigger Eelais E 10.

Depending on the circuit, it is also possible that the Eelais S 100 either remains in the attracted or released position. In Eigur 3 a further example is shown for the switching of the synchronization relay, in which both positions of the relay S 100 are taken into account when stepping outside. The Eelais R 10 receives power via two circuits L 6 and L 7 . In each of the two circuits there is one contact of the Eelais S 100 and one contact of an auxiliary relay

H 3.Θ ιOrgeBehen _f the circuit is set up so that in the idle state, z. ß. the Jiontakt S 108 is interrupted and the contact H 11 is closed, but at the same time in the parallel circuit the contact S 107 is closed and the contact H 12 is interrupted. Hereby is achieved da3, in whatever position stops 100, the relay B, getting the power to R 10 is interrupted · Bae Help etr relay H 10 is supplied in this case via a contact 5106 of the relay δ 100, during normal circulation to Now the capacitor K. 90 lying parallel to the relay R 10 always receives a supplement of its charge and the relay R 10 also remains attracted. This happens because the lines L 6 and L 7 alternately carry current for a short time during normal circulation. If, for example, «B» S 10ü picks up, S 108 is closed and since xlontakt H 11 is also closed, current flows to relay R 10 and capacitor Ji 90 »At the same time, contact B 106 is now closed * the relay H 10 picks up and interrupts the contact H 11, but at the same time closes the contact H 12, so that current flows through this line L 7 in the short time interval during which H 12 is closed and S 107 is ready after the relay S 100 has dropped out. Suitably provides it to extend the relay H 10 even with a slight delay to the Stromeohluß via the line L 7 bit "During the time intervals where However, neither L 6 or L 7 are closed remains the Eelais R 10 attracted by dad of capacitor k 90 delivers its charge to the Belais »Figure 4 shows • a further arrangement in which one can manage without an auxiliary relay

fias happens that a relay R 20 is used with two oppositely connected windings, each winding a capacitor K 90 respectively. K 91 is connected in parallel, like a winding receives current through one contact S 108 and the other through contact S 107. As soon as zX " Acontact 5 107 is closed, the capacitor &, 90 is charged". If S 108 is then closed and S 107 is interrupted, the winding W 10 receives current, but at the same time the capacitor K 90 discharges via the winding TT 11 and there If both windings are connected against each other, the relay cannot pick up »If the relay S remains in the tightened or released position, one winding receives constant current and after the capacitor connected in the opposite direction has discharged, the relay picks up · For safety reasons, ζ • B. In order to ensure that both capacitors are charged in the idle state, both can be connected to voltage directly via totei contacts G 13, & 14, whereby these contacts are closed when relay & 10 is energized »

Claims (1)

Claims 1. Fexnsteuerungseinrichtung for the transmission of «el fertilize, Bef eh ie-ti ο the like between two stationseii ^ be zw · from a central station to a station _i whereby the transmission of the messages is carried out by _x steps, because of this indicates that a delayed relay is provided for the .. synchronization of a step switch that has fallen out of step ^{bridged® v} \ device according to claim I _3, characterized in that the synchronization relay is one of a bank of Step switch ers controlled relay (S 100) is controlled. 3. Device according to claim 2, characterized in that the synchronizing relay is controlled by two circuits, each of which has two contacts in series (40 ft) of the controlling relay (S 100) and an auxiliary relay are provided, each of which is an und erb röche n, Xei ne r closed is. 4 _β device according to claim 2, characterized in that Illf for Synohroniserung a Relaisl ^ Tt two back to back Wicklungehyvorgesehen, where Each Wick · development a particular delay has " mhtätea f ^ CÄ ^ Ig fääusx'h ι ~ Ό ^ τ ^ ϋ ^} Μ & α% _Β α?. * SZj. '<lio ~ 7 ^ εί £ · χ »; · &« »