DE3635682C2 - - Google Patents

Description

The invention relates to a monitoring device for lamp failure, especially for airfield lighting systems in which the lamps are connected via series circular trans formers are fed, whose primary windings in Row over a series circuit cable to a supply circuit are switched on and in their secondary winding circle the lamps lying and taking each lamp one Function circuit for determining the lamp function and this is followed by a signaling circuit for one Lamp failure is assigned. Such a facility is known from DE-OS 28 40 422.

Serve as the beacon of an airfield lighting system usually halogen bulbs, which one behind the other switched form a series circuit. So in case of failure one lamp (e.g. broken filament or short circuit) the rest Any light bulb will remain in operation a transformer with current transformer characteristics pre- switches. By operating the circle with a gere apply electricity is a constant brightness of fire guaranteed.  

Monitoring devices are used to determine lamp failures directions have become known. So in the DE-PS 28 29 135 describes a monitoring device at the current and voltage of the lamp failure determination Supply circle are linked in such a way through which the relative proportion of the failed Lamps can be determined. However, the failure message contains no statement about the affected lights.

By an arrangement according to DE-OS 34 31 099 is also Defective lamps can be located. The However, the solution described requires in addition to Management of the supply circuit laying Mel lines, about the information in the event of failure Lamp to be given to a central office.

The well-known monitoring devices for the lamps failures therefore only provide information about the lamp failure rate and do not allow selectivity regarding the indication of the failed lamps or them require an increased wiring effort.

The object of the invention is a surveillance device tion of the type mentioned at the outset, through which the location of a failed lamp is made possible without the lei serving for lamp supply lines additional reporting lines are required.

The object is achieved in that the Signaling circuit contains an oscillator for the Characteristic lamp position and / or lamp function AC signals via the series circuit cable in the Supply circuit, which is fed through a decoder a central office can be evaluated.  

It is thus determined by the functional circuit te information by the reporting circuit in the supplier supply circuit (lamp network) in coded form. This enables the lamp function to be determined ner any lamp from a center without additional control or reporting lines required would be.

In particular, faults such as Spiral break, wire break, short circuit or earth fault in Consider. The safe and unambiguous detection of a defective lamp can be assigned by assigning different Frequencies or frequency sequences reached for each lamp will.

To detect a spiral or cable break assigns the functional circuit of the monitoring device advantageously a device for measuring the Lamp current on. For example, in the lamps Circuit a current transformer can be arranged, the Secondary winding ends attached to a window comparator are closed. The window comparator determines whether the Line current is within specified limits and passes the information on to the reporting circuit.

To determine a lamp socket short of a Line or earth fault is expediently the Voltage drop across the lamp of a window comparator fed, which determines whether the lamp voltage lies within predefinable limits and corresponding ones Provides information to the reporting circuit.

It may also be advantageous to illuminate the lamp to be monitored by a light-sensitive sensor chen. Other sensors to monitor the lamps function, e.g. Temperature sensors are applicable. The  Sensor signals are evaluated and the evaluation result nis is in coded form by the reporting circuit in the lamp supply circuit.

According to a development of the invention, the radio tion circuit connected a relay, the Ar beitskontakte in the circuit of the lamp. Will through the function circuit detects a fault in the lamp circuit set, this gives a control signal to the relay and this separates the faulty lamp from the ver supply voltage.

The signaling circuit expediently contains an Os zillator, which is followed by an amplifier. At the oscillator can e.g. around an RC oscillator act. If a defect occurs, the oscillator starts up and feeds a voltage or a current for the respective lamp of specified frequency or frequency follow into the lamp network. In the head office can then periodically when the lamp ver supply voltage (less than 10 ms), or if sufficient appropriate oscillator power of the signaling circuit even without Shutdown that registers frequency or frequency sequence and the defective lamp can be determined.

Preferably, the frequency and / or the Fre sequence of the oscillator associated with a lamp program after installation. this makes possible For example, if the lamp circle changes, the Zu order of new identification frequencies for each lamp, without that components to be replaced or rewired need.

To set up their own power supply for the Function circuit and / or the signaling circuit ver avoid, the power supplies of the functional circuit  and / or the signaling circuit preferably in the secondary winding circuit of the current transformer. It is appropriate that Power supply buffered design, in which one from the Se secondary winding circuit fed rectifier circuit a battery is connected as a buffer memory. Here through the transmission of interference or feedback signals can be avoided.

The electronic realization of detection and reporting can be done in analog or digital circuit technology gene.

Based on the drawing, which is an embodiment of the Invention shows, are intended to be the invention closer he to be refined. The only figure shows the principle circuit diagram of a monitoring device according to the invention device for lamp failure in airfield lighting systems gene.

The primary windings 10 of a plurality of series circuit transformers 11 , only one of which is shown, are connected to one another by a series circuit cable 12 and lie in a supply circuit which has not been shown in more detail. The secondary winding circuit 13 of the series circuit transformer 11 feeds the lamp circuit in which the lamp 14 (beacon) is located.

In the lamp circuit there is also a further primary winding 15 of a current converter connected in series with the lamp 14 . The ends of the secondary winding 16 of the current converter are connected to a window comparator 17 . The window comparator 17 checks whether the current I in the lamp circuit is within predefined limits. The inputs of a second window comparator 18 are connected in parallel to lamp 4 and allow the voltage drop across lamp 14 to be registered . The second window comparator 18 checks whether the voltage drop across the lamp 14 is within predetermined limits.

The output signals of the first window comparator 17 and the second window comparator 18 are fed to an OR gate 19 (exclusive OR). The OR gate 19 causes an alarm signal if one of the two conditions is registered by the window comparators 17 and 18 :

• a) I < I _min and U _min < U < U _max (spiral break)
• b) U < U _min and I _min < I < I _max (final version).

The alarm signal of the OR gate 19 is fed to a relay 20 . This responds to an error and breaks the lamp circuit by opening the normally open contact 21 .

The output signal of the functional circuit A , which consists of current transformers, window comparators, 17 , 18 and OR gate 19 , is fed to the signaling circuit B via line 22 . The functional circuit A , which serves to determine the lamp function, and the notification circuit B are shown in the figure by a dash-dotted line 23 Darge.

The signaling circuit B consists of a rectifier 24 , a battery 25 , an oscillator 26 and an amplifier 27 . Rectifier 24 is powered by the lamp circuit. Its output is connected to the battery 25 , which serves as a buffer and also suppresses interference signals from the lamp circuit and feedback. The Oszilla gate 26 is powered by the battery 25 . It responds when an error message arrives via the alarm line 22 . The oscillator signal is amplified by the amplifier 27 and output again in the lamp circuit.

The oscillator gate signal is coupled into the series circuit cable 12 via the series circuit transformer 11 . The series circuit cable 12 leads the oscillator signal to a control center (not shown), where the oscillator signal is evaluated with regard to its frequency, on the basis of which the position of the lamp 14 affected by a fault can be determined.

The oscillator 26 can be an RC oscillator, for example. The frequency of the oscillator gate 26 can be set by a coding input 28 in which, for example, the resistance or the capacitor of the RC oscillator can be changed.

Claims (9)

1. Monitoring device for lamp failure, in particular for airfield lighting systems, in which the lamps ( 14 ) are fed via series circuit transformers ( 11 ), the primary windings ( 10 ) of which are connected in series via a series circuit cable ( 12 ) to a supply circuit and in their secondary winding circuits ( 13 ) the Lam pen (14) lie, and wherein each lamp (14) onsschaltung a functi (a) is assigned to determine the lamp function, and this followed by a signaling circuit (B) for a lamp failure, characterized in that the signaling circuit (B) comprises Oscillator ( 26 ) ent, which for the lamp position and / or lamp function characteristic AC voltage signals via the Se rienkreiskabel ( 12 ) feeds into the supply circuit, which can be evaluated by a decoder in a center. 2. Monitoring device according to claim 1, characterized in that the functional circuit ( A ) has a device ( 17 ) for measuring the lamp current ( I ). 3. Monitoring device according to claim 2, characterized in that the functional circuit ( A ) has a device ( 18 ) for measuring the voltage drop across the lamp ( 14 ). 4. Monitoring device according to claim 1, characterized in that the functional circuit ( A ) contains a light-sensitive sensor for registration of the lamp brightness. 5. Monitoring device, according to one of Ansprü che 1 to 4, characterized in that the function circuit ( A ) is a relay ( 20 ) downstream, the normally open contacts ( 21 ) are in the lamp circuit. 6. Monitoring device, according to one of claims 1 to 5, characterized in that the signal circuit ( B ) has an oscillator ( 26 ) connected downstream amplifier ( 27 ) and that the amplifier output parallel to the secondary winding circuit ( 13 ) of the series circuit transformer ( 11 ) is switched. 7. Monitoring device according to one of claims 1 to 6, characterized in that the oscillator ( 26 ) has a Co diereinrichtung ( 28 ) for setting the frequency and / or frequency sequence. 8. Monitoring device, according to one of Ansprü che 1 to 7, characterized in that the power supply of the functional circuit ( A ) and / or the Mel deschaltung ( B ) through the secondary winding circuit ( 13 ) of the series circuit transformer ( 11 ). 9. Monitoring device according to claim 8, characterized in that the power supply for the oscillator ( 26 ) consists of a rectifier ( 24 ) arranged in the secondary winding circuit ( 13 ) with a downstream battery ( 25 ) as a buffer memory.