DE2224622C3 - Arrangement for controlling and monitoring point machines - Google Patents

Description

The subject of the main patent 2005249 is a Arrangement for controlling and monitoring track facilities, especially switches, over greater distances from a central signal box in electrified railways, where the lines running between the signal box and the track facilities limit the traffic currents from the system If necessary, interference voltages induced in them by driving vehicles in a number of self-contained short conductor loops, depending on the distance between the signal box and the line equipment are separated. These control signals triggered in the interlocking are sent from conductor loop to conductor loop in the direction of the line equipment passed on or monitoring signals triggered at the track facilities in reverse order * passed on to the signal box.

To determine the steep distance between an interlocking and the one to be controlled by this interlocking To increase the size of the point machines to be monitored, you can easily switch between the The signal box and the point machines run in any number of short conductor loops split up. For point monitoring, it is advisable to use the previously common point monitoring * Maintaining the formwork in an adapted form. In a known working according to this principle Turnout switching (DTOS 2015 539) are set at certain intervals between the interlocking and the Switch relay groups switched on in the connecting lines, via which those triggered in the interlocking Control signals passed from conductor loop to conductor loop in the direction of the turnouts and the to the Switches triggered monitoring signals in the

in the opposite direction to be passed on to the signal box. The advantage of such an arrangement is that the turnout circuits working according to this principle can be combined without difficulty with the already existing turnout circuits, in which the drives do not need to be operated via separate relay groups due to their small distance between the signal box and the turnout, / uch the subsequent insertion of relay groups in already existing control and monitoring lines is possible. The already tried and tested direct current monitoring circuits can be used. The disadvantage of this arrangement is at> er that this solution is relatively expensive and that difficulties arise in troubleshooting and maintaining such a system.

The invention is based on the object of creating a more economical arrangement for controlling and monitoring points.

According to the invention, this object is achieved by that in the signal box two contactors assigned to the two different directions of rotation of the drive are arranged, of which one or the other via contacts of, depending on the direction of changeover Point setting and point storage relay can be switched on as required and connects the primary circuits of isolating transformers with its contacts whose secondary windings are connected to the point drive motor via actuating current lines and any number of interconnected isolating transformers, which remains switched on after the contactor contacts are closed until the drive has reached the other end position and one in the interlocking into two monitoring lines separated by intermediate isolating transformers AC voltage coupled in when actuating mechanically controlled drive contacts via two Return lines that are also separated by isolating transformers are transmitted back to the signal box, there if the setpoint and actual position of the switch match, the toilet control relay returns to its starting position are controlled and the previously connected contactor is de-energized via contacts of these relays

An embodiment of the invention is shown in the drawing and will be described in more detail below explained

In the drawing, only the relays and those circuits of these relays are shown, which are essential for the explanation. The turnout, not shown, should occupy the plus position, the turnout tongues occupy the previous end position. Then the contacts WUi to (V / 76 of turnout relays, not shown, assume the position shown. The turnout relays and a turnout relay WSi , not shown, are designed as bistable relays with two windings and mutually supporting armatures. The arrow in the relay symbol of the turnout relay WSi indicates that the illustrated winding of this relay was the last of the two relay windings to flow through the current; the arrows next to the relay contacts indicate that these contacts are contacts of bistable relays and also make it clear to which of the two windings of the relevant relay this contact belongs The contactors WS + and WS- are shown as circles with black none; all other relay windings are symbolized by simple circles.

With the assumed correct positive position of the switch, the switch monitoring relay WU in the circuit of the switch to be monitored is energized: In the signal box, a voltage UX can be tapped at terminals AB , which is applied to the primary winding of an isolating transformer 10 via winding I of a fault current, activated switch detection relay WAM The voltage induced in the secondary winding of this isolating transformer is applied via the control and monitoring lines 1 and 2 to the primary winding of a further isolating transformer 11 and from there passes via the secondary winding of this isolating transformer and the drive contacts AK 2 and AK 3 of the switch, which are closed in the positive position of the switch Drive motor to the secondary winding of an isolating transformer 21. Via the primary winding of this isolating transformer and the control and monitoring lines 2 and 3, a voltage corresponding to the voltage U 1 is also applied to the secondary winding of a Tüenntransformer 20. The voltage that can be tapped at the primary winding of this transformer is in series with the voltage U 2 between terminals A and C via the contacts WUi, WU2 of the turnout relay, the contacts WS 1/1 and WS i / 2 of the turnout relay WS1, the contact WAM / i of a turnout detection relay WAM and the contacts WS + Ii and WS-Ii of the stilts contactors on the winding of the turnout monitoring relay Wt / an. The voltage that corresponds to the voltage Ui and the voltage U 2 that can be tapped at the terminals AC , which is transmitted from the interlocking to the switch and transmitted back to the switch from there, are approximately in phase and dimensioned in such a way that the switch monitoring relay WU is energized and the correct state of the

Switch signals

In the following it is assumed that the switch is to be switched from the plus position to the minus position. For this purpose, a switch indicator, not shown, is connected first, which also does not Einstellwicklung of the non-point-setting relay WSi applies voltage and thus the reversal of the railway switch relay WS i of the effects a stable cn in the walls · stable state, the contacts WS WS 1/1 to t / 8 switch relay this case in the illustrated shown condition. Via the contact WS 1/3 this Relay, a switch relay WS 2 is switched on after the switch switch has been switched on Timer has been activated, whose contact WLVTl is also in the circuit of the points alternate relay WS 2 is the object of the timer will be explained about the same time turning on the relay switch stand WS 2 is separated 1/1 of the circuit for the switch monitoring relay WU via the contact WS and the Weichenüberwachungs- relay thus dropped operationally. As soon as the contacts of the switch monitoring relay WU have changed, the switch position relays are controlled in the respective other position in currents (not shown). The contacts WUi to WU6 of this Relays are reversed and assume the position not shown in each case. Once this has happened, is the point control indicator thrown off again, and is the WSMIi contact in the switch-on circuit? the contactors WS + and WS- closes. On the Contact WWi of the switch position relay as well as the contacts WS 1/4 and WS2 / 1 of the switch relay WS1 and WS2 and the contact WSM / 1 of the previously activated switch signaling device become the contactor

WS— switched on, which then reverses its contacts WS-Zi to WS- / 4. If the switch is to be switched from the minus position to the plus position, the contactor WS + is switched on via the contact WUb . The phase voltage between R, S and T is applied to the primary windings of a three-phase isolating transformer 30 via contacts WS-12 to WS- / 4 of the Stellschützcs WS-; From the secondary windings of this transformer, the phase voltages between R. S and T reach the windings Wi of the point drive motor via lines 7 to 9. The drive motor starts up from its starting position, the mechanically controlled drive contacts AK 1 and AK 3 initially changing into the other position. The secondary winding of the isolating transformer 11 is short-circuited via the drive contacts AKX and AK2. The resulting increase in current in the winding 1 of the switch opening signaling relay WAM causes the switch opening signaling relay WAM, which was previously energized with faults, to pick up . Via the contact WAM / 2 of this relay and the contact WS 1/5 of the Softcnstellrelais WS 1 also the winding 2 of the switch opening signal relay WAM is connected to voltage and thus the excitation of this relay is made independent of the switch-on winding 1 of this relay.

When the switch drive has reached its end position, the contact contacts AK 2 and AK 4 also change to the other position. The reset winding of the switch relay WSl is switched on again via the contact WAM / 3 of the energized switch detection relay WAM. The voltage U 1, which can be tapped off at the terminals AB, is used for this purpose. The voltage that can be tapped there is also applied to the secondary winding of the isolating transformer 21 via the drive contacts AKX and AK4, which are now closed, and from there it reaches the secondary winding of the isolating transformer 20 via the primary winding of this isolating transformer and the control and monitoring lines 2 and 3 the contacts WZV4 and WLJ5 of the turnout relay as well as the contacts WS 1/6 and WS 1/7 of the turnout relay WS X and the contact WAM / 3 on the winding of the turnout relay WSl. The voltage transmitted back is approximately in phase with the voltage applied to the AC terminals, and the switch relay WS1 can switch back to the other switching state and change its contacts to the position shown. The WS 1/4 contact switches off the contactor WS— , which disconnects the supply circuit for the motor windings. Via the contact IVS1 / 5 of the turnout relay WSl, the winding 2 of the turnout alarm relay WAM is switched off and the turnout alarm relay is thrown off again. The contact WAM / 4 of the switch activation relay WA M disconnects the holding circuit for the switch relay WS2, which is then also thrown off via the contact WS 2/2. When the turnout relay WS \ is reversed, the voltage corresponding to the voltage i / l, transmitted from the interlocking to the turnout and from there back to the interlocking, arrives via the contacts WL / 4 and WUS of the turnout relay, via the contact WS 1/2 of the turnout relay WS 1 in Row with the voltage L / 2 applied to the AC terminals via the contacts WS + / 1, WS- / 1, W4M / 1 and WS 1/1 on the winding of the point monitoring relay WU. which then attracts and indicates the proper condition of the switch. This means that all relays, with the exception of the turnout relays, take the ones before the

ίο Switchover assumed position.

If the switch does not reach the new end position for any reason, the aforementioned timer responds and, after a predetermined period of time since the switch was initiated, de-energizes the switch relay WS2, which switches off the contactor that is switched on with its contact WS 2/1. Via the contacts WS- / 2 to WS- / 4 or WS + / 2 to WS + / 4 of the previously connected contactor, the power supply for the drive motor of the turnout is interrupted. If the point drive has left its original end position, although it has not reached its new end position (this is also the case when the point is opened), either the drive contacts AKi and AK3 or the drive contacts AK 2 and AK 4 have changed. In both cases, the secondary winding of the isolating transformer 11 is short-circuited, and the switch activation relay WAM? The turnout detection relay WAM creates a holding circuit via its contact W4M / 2, which when the turnout opens via the still closed contacts WS2 / 3 and WS 1/8 of the turnout relays and if the intended end position is not reached after initiating a switch changeover via contact WS 1 / 5 of the switch relay WSl leads. The activation of the turnout detection relay WAM serves together with the dropout of the turnout monitoring relay WU to trigger a fault message.

In the previously common switch circuits without intermediate isolating transformers, the comparison between the setpoint and actual position of the switch was made by comparing the contact positions of the switch position relay contacts with the contact positions of the drive contacts. This is of course not possible with switch circuits with interconnected isolating transformers. Here the comparison between the target and the actual position is made with the help of alternating voltages. Only when the voltage t / l tapped at terminals AB in the signal box has been rotated by 180 ° by the drive contacts and rotated again by 180 ° in the signal box by the switch position relay contacts, it can be used together with the then in-phase voltage U 2 the turnout

Bring ss wachungsrelais WU to pick up. If, on the other hand, only the switch position relay contacts have changed, but not the drive contacts, the polarity of the voltage Ui is not reversed by the drive contacts, but only rotated by 180 ° by the switch position relay contacts.The voltage transmitted from the interlocking to the drive and from there back to the interlocking is not in phase with the voltage applied by the interlocking to the winding of the turnout monitoring relay, and the turnout monitoring relay cannot pick up. The same applies, of course, if, for any reason, the switch should be switched manually without the switch position relays having been switched on or

the switch is opened.

The number of isolating transformers to be used between the interlocking and the switch depends on the distance between the signal box and the turnout and the control and monitoring lines on the di; n or actuating current lines induced voltages. The ones on the control and monitoring. * Or actuating current lines The separation losses occurring in the individual conductor loops can be avoided by appropriate dimensioning of the transformer windings are compensated.

The arrangement can be used in the same way for drive motors operated in one or any number of phases use. The embodiment with a three-phase drive motor stands for all otherwise conceivable motor circuits. When using the It is only important to arrange the positioning current lines from the control and monitoring lines separate, so cl; iß for the control and monitoring lines much smaller and higher-resistance isolating transformers than those used for the Stellstroni cables can be.

1 sheet of drawings

Claims (4)

Patent claims? l _r Arrangement for controlling and monitoring points over long distances from a central signal box in electrified railways, in which the lines running between the signal box and the points to limit the drive vehicles induced in them by the traction currents from the locomotives are converted into a The number of self-contained conductor loops depending on the distance between the signal box and the switch are separated, according to patent 2005249, characterized in that two contactors (WS + and WS-) assigned to the two different directions of rotation of the drive are arranged in the signal box, of which the one or the other can be switched off as required via contacts (WS 1/4. WS2 / 1, WLJ3 or WU6) of point setting and point storage relays (WSi, WS2, WL) and with its contacts (WS + 12 to WS + / 4 or WS - / 2 to IVS- / 4) the primary circuits of isolating transformers (30) closes its secondary windings via z $ control current lines (4 to 9) and any number of isolating transformers connected in between (31) the point drive motor is connected, which remains switched on after the contactor contacts are closed until the drive has reached the other end position and one in the interlocking is divided into two monitoring lines (1, 2) separated by isolating transformers (10, 11). Coupled AC voltage (Ul) when mechanically controlled drive contacts (AKi to AK4) are actuated is transmitted back to the interlocking via two return lines (2, 3), which are also separated by isolating transformers (21 and 20), there when the setpoint and actual position of the switch match the point setting relays (WSi and WS 2) are switched to the starting position and the previously connected contactor (WS + or WS-) is de-energized via contacts (WS i / 4 and WS2 / 1) of these relays 2. Arrangement according to claim 1, characterized in that the comparison of the target * and actual position of the switch in the interlocking is carried out by two in-phase AC voltages (U 1 and L / 2) taken from the feed network, one of which (U2) is independent of the respective actual position of the turnout is applied to the terminals of a turnout monitoring relay (WU) via the point setting relay * and setting estimator contacts (WSt / 2, WS + / i, WS-Zi) in the initial position, while the other (U \\ via the monitoring lines (1 , 2) AC voltage transmitted to the wet drive there after turning by 180 "each time the switch is switched by the drive contacts (AK 1 or AK2, AKX AK4) to the return lines (2, 3) and from there, after another turn by 180 ° by specifying the target position of the turnout * the turnout relay contacts (WUi, WU2 or WU4, WUS) is also applied to the terminals of the point monitoring relay (WU) , which only picks up when the phase position of the two alternating voltages (L / 1 and U2) is approximately the same. 3. Arrangement according to claim I, characterized in that in the interlocking in one of the two supervision boys a Weiehenauffehrmelde 'relay (WAM) is broken, which is in the end position of a switch from the interlocking to the switch and from there to the interlocking transmitted back monitoring current to actuate the Turnout monitoring relay (WU) is energized with fault current below the waste current of the turnout detection relay and which picks up when the turnout opens due to an increase in current in the monitoring lines (1 and 2) due to short-circuiting of the monitoring lines through the drive contacts (AK 1 and ΛΚ 2) 4. Arrangement according to claim 3, characterized in that the switch-on switch-on relay (WAM) has a secondary winding (WAM2) which, when the switch switch-on alarm relay is switched on, has its own contact (WAM ), even with every operational switch changeover by the drive contacts (AKi and AK2) / 2) can be connected to the voltage and the holding of the turnout detection relay (WAM) is independent of the position of the drive contacts (AK 1 and AK 2) and that contacts (WS i / 5 or WS i /%, WS2J3) in the holding circuit of the secondary winding of the point setting relays (WSi, WS2) are arranged, which interrupt the holding circuit of the point opening signaling relay after the new end position has been reached when these relays are reversed into the starting position.