DE9102056U1 - Circuit for monitoring AC powered signal lamps - Google Patents

Description

■' 91 G 2 90 5 EN Siemens Aktiengesellschaft

Circuit for monitoring AC-powered signal lamps 5

The invention relates to a circuit according to the preamble of claim 1. Such a circuit is known from DE-PS 35 16 612.

In this known circuit, the direct current indicators are used to identify the signal aspect present at any given time and to identify the lamp filament that is active at any given time in a signal lamp that is switched on. The different signaling states are differentiated by evaluating the polarity of direct voltages; the direct voltage detected in each case is switched to the supply lines to the signal lamps near the lamp via differently polarized diodes and exclusion contacts of signaling devices and is coupled out at a remote monitoring point via direct current indicators.

There is a lamp monitor near the signal lamps, which detects the supply current flowing through the main filament of the respective signal lamp and, if the supply current is high enough, disconnects a secondary filament connected in parallel to the main filament for backup purposes from the supply voltage. If the main filament burns out, the secondary filament of the signal lamp is automatically activated. This well-known circuit assumes that the secondary filament of a signal lamp is always functional and can take over the task of the main filament if it fails.

Light signal circuits are also known in which the respective secondary filament of a signal lamp is checked for functionality. This is the case, for example, with the circuit known from DE-PS 35 15 962. In this circuit, every time a signal lamp is switched on, and when the signal lamp is switched on, the secondary filament of the signal lamp is also switched on for a short time. If the secondary filament is live, a feedback signal is sent to a

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Gi/Jas - 19.02.91

■ 91 G 2 90 5 EN

There is a monitoring point, which then causes the previously switched on secondary thread to be switched off. With this known circuit, there is no constant monitoring of the secondary thread for functionality. In addition, the individual switching on of the secondary threads for testing purposes and the feedback of the corresponding signal states to an evaluation point requires a relatively high level of hardware expenditure solely for the functional testing of the secondary threads on the individual signal lamps.

A circuit for monitoring the function of double-filament lamps in light signals is known from the German utility model 90 12 6Al, in which the secondary filament of a signal lamp is constantly monitored when the main filament is switched on. If the monitoring circuit via the secondary filament is interrupted for any reason, this is reported to a central monitoring point. This is done with the help of a separate current indicator in the circuit of the monitored secondary lamp filaments.

The object of the invention is to provide a circuit according to the preamble of claim 1, which enables constant functional monitoring of a replacement filament for the duration of the connection of a lamp, without the need for an additional current indicator or other signaling device in the monitoring circuit of the replacement filament in question.

The invention solves this problem by the characterizing features of claim 1. Advantageous embodiments of the circuit according to the invention are specified in the subclaims.

An embodiment of the invention is explained in more detail below with reference to the drawing.
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The drawing shows a signal lamp L of a multi-aspect light signal (not shown in more detail), which is controlled from a remote control point via isolating transformers Tl and T2

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3 91 G 2 90 5 EN

is operated with alternating current. This alternating current is constantly present; the signal lamp L is switched on and off by contacts FUl/1 and FU2/1 of lamp monitors that are assigned to other signal lamps of the light signal. If the signal lamp L shown is, for example, a signal lamp intended for switching on the stop aspect, the contacts FUl/1 and FU2/1 are contacts of the lamp monitors assigned to, for example, the two travel signal lamps of the light signal. The supply voltage for the travel signal lamps is not constantly switched through to the signal lamps; it is applied as required by switching contacts.

Near the signal lamp L there is an alternating current indicator W, which detects the alternating supply current flowing through the main filament H of the signal lamp and, if the alternating supply current is sufficiently high, switches off the secondary filament N of the signal lamp with its contact W/l.

A direct current monitoring circuit is used to monitor the correct operating behavior of the signal lamp and to simultaneously monitor the functionality of the secondary filament that is not switched on. This circuit runs via the supply lines leading to the signal lamp, the two series-connected lamp filaments of the signal lamp and at least one direct current indicator. The monitoring direct current is derived from the constantly applied alternating current supply voltage via diodes Dl and D2 connected in opposite polarity and upstream exclusion contacts W/2 and W/3. As long as a sufficiently high alternating current supply current flows via the main filament H of the switched-on signal lamp L, the alternating current indicator W is excited. For example, the contact W/2 in series with the diode Dl is closed and a monitoring circuit is formed via this diode, the secondary filament N of the signal lamp, then the path is divided via the main filament H of the signal lamp, the primary winding of a current transformer feeding the alternating current indicator W and the transformer T2, the direct current indicator Gl and the feed lines S of the signal lamp. The direct current indicator Gl indicates in the set state

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the presence of the correct operating state of the signal lamp L. The main filament is monitored by the alternating current indicator W. Resistors R prevent the monitoring direct current from exciting the non-switched secondary filament of the signal lamp beyond its glow limit.

If the AC indicator W drops out, for example when the main filament of the signal lamp burns out, it opens its contact W/2 and closes its contacts W/l and W/3. Now a monitoring direct current flows through the diode D2, the contact W/l, the direct current indicator G2 and the supply lines of the signal lamp. The response of the direct current indicator G2 indicates that a fault has occurred.

Instead of exclusion contacts W/2 and W/3 of the alternating current indicator assigned to the signal lamp in the monitoring circuit of a signal lamp, exclusion contacts controlled by other events can also be used to switch the direct current indicators on and off as required, for example switches that indicate whether the main or secondary filament is active for the signal lamp of the light signal that is switched on, e.g. a travel signal lamp. In this case, the monitoring of the signal aspect that is switched on is carried out via direct current indicators (not shown in the drawing), which are assigned to the travel signal lamps of the light signal and can be switched on via meshes between the supply lines of the individual signal lamps.

Regardless of who is responsible for displaying the signal lamp being monitored, the invention shows a way to check the functionality of the secondary filament of a signal lamp in addition to the main filament that is switched on, without additional effort, or to include the monitoring of both the main and secondary filaments of a signal lamp in the reporting process. Any errors that would only impede or endanger operation in the event of a fault if the main filament of a signal lamp were to burn out are detected early, so that the possibility of timely rectification of the fault is given before the danger occurs.

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3 ■ 31 G 2 90 5 DE The invention can also be used for monitoring signal lamps without double filament lamps. In this case, a replacement lamp takes over the function of the secondary filament according to the embodiment described above.

Due to the galvanic connection between the supply lines and the signal lamp(s) included in the monitoring circuit, it is possible to use the appropriate signaling devices to detect wire contact and earth faults on the supply lines close to the lamps in the same way as wire contact and earth faults on the supply lines to the signal lamps without any additional effort.

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Claims (3)

, 91 G 2 90 5 DE &ogr; Protection claims 1. Circuit for monitoring AC-fed signal lamps by means of a DC voltage using at least one DC indicator, preferably remote from the signal lamp, to indicate at least one signaling status and an AC indicator close to the signal to switch on a replacement filament if required when a main filament that can usually be switched on burns out, in particular for double filament lamps in traffic signaling technology, characterized in that the direct current monitoring circuit is routed via the series connection of the main (H) and associated spare thread (N). 2. Circuit according to claim 1, characterized in that that the direct current monitoring circuit is designed with such a high resistance that the direct current monitoring only excites the lamp filaments (H, N) below their luminous limit. 3. Circuit according to claim 1 and 2, characterized in that that the monitoring DC voltage is derived by rectification from the AC power supply of the own signal lamp (L) or other signal lamps. A. Circuit according to claim 1 and 2 or 3, characterized in that that two direct current indicators (Gl, G2) responding to different polarities of an applied direct current voltage are provided and that the direct current monitoring circuit has two diodes (Dl, D2) connected in parallel and polarized in different forward directions with upstream exclusion contacts (W/2, W/3) for different signaling states. 02 01