DE1139872B - Fault alarm circuit for electrical signal boxes - Google Patents

Description

Fault reporting circuit for electrical interlockings The invention relates to Fault reporting circuits for electrical signal boxes, in particular with delayed ones Reporting of malfunctions from several facilities, with a new report as well is given if the acoustic fault message for another facility beforehand has been switched off with the help of button-controlled switching means.

For electrical interlocking systems are to display faults in the General red indicator lights are provided, some of which also flash. About that In addition, in the case of particularly important malfunctions, an alarm clock is also required sounds. Often times, the disorder can take some time to be evoked by someone Guards are eliminated. In this case, the alarm clock must be able to be switched off so that the The operator is not constantly distracted by the sound of the alarm clock. But with that If the fault continues to be displayed, the fault lamp should continue to shine. Another requirement is that the alarm clock shutdown only for the the fault that has just occurred is valid. If another new disorder occurs, so the alarm clock must sound again.

These rather diverse conditions led to very complex ones and complex circuits. For processes that normally occur frequently and which are only considered to be disruptions if they persist for a certain period of time, the effort is further increased by a necessary time element. For example the normal changeover of an electrically operated switch takes about 21/2 seconds; if the switch does not reach the other end position after switching, this disturbance must be reported optically and acoustically. If several turnouts are switched one after the other, in this way, the fault message could already be issued during the normal, accumulating positioning time enter; in order to prevent this, a timer is included in the circuit in a known manner inserted, which only enables the error message when the point monitoring relay dropped for more than 15 seconds.

The invention is based on the task of reducing the circuit complexity for reduce such malfunction reporting circuits quite considerably and also disturbances to be recognized in time in these circuits. This is done according to the invention by using two independently of one another in the case of disturbed facilities Connectable relays, the contacts of which are on the one hand in the circuits of the fault message parallel and on the other hand in the indirect shutdown circuit of the acoustic Are connected in series. If this fault reporting circuit is used for the delayed activation of the fault message is used, it is after another Advantageous feature of the invention, when switching on the fault message, the delay relay to control via transistors. To the capacitors used as a delay element to keep them as small as possible, they are according to a further feature of the invention in laid the base circuit of the transistors.

The transistors are fed via a common fuse and melt this through. both delay relays are ineffective because they are not switched on can be. According to a further development of the invention, this disadvantage is thereby eliminated avoided the control circuits and the controlled circuits of the delay relays controlling transistors are connected to separate fuses, and that the Control circuit of one transistor and the controlled circuit of the other Transistor are each passed through the same fuse. This measure will ensures that even if a fuse blows the alarm clock in any case sounds.

Since in the event of a fault, the constant alarm clock sound is the Distracts the operator, the acoustic message should be switched off, but the optical message persist. This will be the same as for other malfunction reporting circuits already known, achieved in that the cut-off relay assigned to each device via a contact of the common alarm switch-off button and a contact of one of the disturbed device associated button is turned on, and that this Relay forms a self-closing circuit via its own contact until the The fault has been eliminated and the holding circuit of this relay is thereby interrupted will. It is useful here; the optical malfunction indicator through a contact of the to switch on the cut-off relay in the active position.

For these latter measures, the subjects of the claims 5 and 6, patent protection is only granted together with the subject matter of the patent claim 1 claimed.

The invention is based on the drawing in one embodiment explained in more detail. In Fig. 1, the communal facilities and are in the upper part in the lower part the individual switching elements for reporting faults from two turnouts W1 and W2 shown, while FIG. 2 shows the common switch-on device for the fault message indicates the power supply.

In the upper part of Fig. 1, the delay relays WE 1 and WE 2 with their contacts WE 11 to WE13 and WE21 to WE23, the transistors T1 and T2, the delay elements designed as capacitors K1 and K2, the alarm clock W, the signal lamp S are and the contact WUT of the common alarm switch-off button is shown. The switching means of the individual devices are shown in the lower part of FIG. 1 only as far as they are necessary for understanding the subject matter of the invention. The monitoring relays, not shown, of the switches W1 and W2 control the contacts WÜ1 and WÜ2. Furthermore, the cut-off relays AB 1 and AB 2, each assigned to a switch, are shown with their associated contacts AB 11 to AB 14 and AB 21 to AB 24 , respectively. These relays each have a switch-on winding 1-2 and a holding winding 5-6. The contacts of the point monitoring relays WÜ1 and W02 are connected in parallel via contacts AB 11 and AB 12 or AB 21 and AB 22 of the cut-off relays AB 1 and AB 2 to the base of the two transistors T 1 and T2. The capacitors K1 and K2 allow the relays WE1 and WE2 to pick up with a delay when one of the monitoring contacts W Ü 1 or W02 changes its position shown in FIG. The switching elements described are duplicated because otherwise it would not be possible to check the fault message in normal operation. ., The relay energized WE1 and WE2, as are the contacts WE12 and WE22 the common clock and W via the contacts WE13 and WE23 the common lamp S turned on; this gives an acoustic and a visual fault message. Via the contacts WE11 and WE21 connected in series, the contact of the alarm clock breaker button WUT is connected to the parallel-connected cut-off relays AB 1 and AB 2 of the switches W1 and W2. In this circuit there is one contact of the switch button WT1 or WT2 assigned to each switch. Furthermore, the contacts AB 14 and AB 24 connected in parallel are connected to the circuit of the signal lamp S. The fact that the contacts for switching on the alarm clock and lamp are connected in parallel, while those for switching off the alarm clock are connected in series, it can be checked that both relays are working. If one of the two relays fails, the error message still appears, but the alarm switch-off is suppressed. It is now assumed that the new end position is not reached when switching the switch W2. In this case, the monitoring relay, not shown, of the switch W2 would not pick up again, so that the contact WÜ2 remains closed. After about 15 seconds, the two relays WE1 and WE2 respond, namely at the time when their capacitors K1 and K2 are charged. The two relays with the contacts WE12 and WE22 the alarm W and with the contacts WE13 WE23 and- the signal lamp S to; contacts WE11 and WE12 are also closed. To switch off the alarm, the alarm switch-off button and the switch button of the switch W2 are operated and thereby the contacts WUT and WT2 are closed, so that the relay AB 2 picks up via the winding 1-2 and via the holding winding 5-6, its own contact AB23 and the closed one Monitoring contact WÜ2 remains switched on. The contacts AB 21 and AB 22 open; the relays WE 1 and WE2 drop out and switch off the alarm clock W. However, the lamp S remains switched on via the contact AB 24 until the fault has been eliminated and the contact WÜ2 is again in the position shown, whereby the holding circuit of the relay AB 2 is interrupted.

If, after the alarm clock W was switched off, and the fault in turnout W 2 (contact WÜ2 closed, contact AB21 and AB22 open), a fault would occur at turnout W 1, relays WE1 and WE2 would move via contact WÜ1 and contacts AB 11 or AB 18 again as described, so that the alarm clock W would also be switched on again. With the contacts WUT and WT 1 , the alarm clock W can also be switched off again, while the lamp S remains switched on via the contact AB 14.

In Fig. 2, a fail-safe circuit of the common device is shown. The control circuit of the transistor T1 is led via the fuse Sil and the control circuit of the transistor T2 via the fuse S12. The controlled circuit in which the connection relay WE1 is energized is routed via the fuse Si 2 and the controlled circuit of the transistor T 2 via the fuse Si 1 . Since the fuses for the two circuits of the relays WE1 and WE2 are interchanged and the charging circuit of the capacitor and the base of the transistor are connected to the corresponding other fuse, it is ensured that the fault message is always given even if a fuse blows. Melts z. B. the fuse Si 1, the relay WE1 responds, since the base of the transistor T1 becomes negative when the switch-on circuit described is closed and the relay WE1 responds via the fuse Si 2. Although the base of the transistor T 2 for the relay WE2 is properly controlled, the relay WE2 cannot pick up because it does not receive any feed current via the destroyed fuse Si l. The alarm clock also sounds properly in this case of malfunction; however, the fault is recognizable because both relays WE1 and WE2 must be energized to switch off the alarm clock and the alarm clock cannot be switched off after a fuse has blown.

Claims (6)

PATENT CLAIMS: 1. Fault reporting circuit for electrical interlockings, in particular with delayed reporting of malfunctions from several facilities, a new report is also given if the acoustic failure report for another facility has previously been switched off with the help of button-controlled switching means, characterized by the use of two relays (WE I- and WE 2) that can be switched on independently of one another (via contacts WU 1 and W112) in the event of a faulty equipment, whose contacts are on the one hand parallel in the circuits of the error message (e.g. contacts WE 12 and WE 22 for the acoustic message and / or contacts WE 13 and WE 23 for the optical message) and on the other hand in the indirect disconnection circuit of the acoustic fault indicator in series (contacts WE 11 and WE 21) are connected. 2. Fault reporting circuit according to claim 1, characterized in that the delay relays (WE I and WE 2) via transistors (T 1 and T 2) are controlled for the delayed activation of the fault message. 3. Fault reporting circuit according to claim 1 and 2, characterized characterized in that the delay switching means (e.g. capacitors K 1 and K2) are placed in the base circuit of the transistors (T1 and T2). 4. Fault reporting circuit according to claim 1 to 3, characterized in that the control circuits and the controlled circuits of the delay relays (WE 1 and WE 2, Fig. 2) controlling transistors (T 1 and T 2) are connected to separate fuses, and that the control circuit of one transistor (z. B. T l) and the controlled circuit of the other transistor (z. B. T2) are each led via the same fuse (Si 1) . 5. Fault reporting circuit according to claim 1, characterized in that the cut-off relay assigned to each device (z. B. AB 1) via a contact (WUT) of the common alarm switch-off button and a contact (z. B. WT 1) one of the disturbed device assigned button is switched on, and that this cut-off relay forms a self-closing circuit via its own contact (e.g. AB 13) until the fault is eliminated and the holding circuit of this relay is interrupted (e.g. by contact WU1). 6. Fault reporting circuit according to claim 1 and 5, characterized in that a contact (z. B. AB 14) of the in operative position disconnection relay (z. B. AB 1) is provided for switching on the optical malfunction indicator (S). Publications considered: German Auslegeschriften Nr.1. 091 146, 1100 676.