DE19947688A1 - LED light signal for traffic control can be operated instead of light signal without adapting light signal circuit - Google Patents

Abstract

The LED light signal is driven by a light signal circuit for light signal lamps with main and secondary filaments, whereby the circuit is designed to temporarily check the secondary filament. The LED light signal has two groups of LEDs (LED-H,LED-N) for emitting light of at least approximately the same wavelengths arranged individually or mixed at the light surface of the light signal and individually operated at least indirectly via the main (HFK,NFK) or secondary circuits.

Description

The invention relates to an LED light signal according to the Preamble of claim 1.

From DE-AS 11 81 792 is a light signal system for the Control of rail traffic known. Every light signal has one or more colored light signs, as required switchable signal lamps are shown. The signal lamps are as double-filament lamps with one main and one Ne benfaden trained, of which with the light on Chen usually the main thread is energized. In one of the Light signal remote control point z. B. an interlocking, will flow over the lamp thread that is switched on de Current measured and evaluated. In the event that the current with the main thread switched on, a predetermined lower one Falls below the threshold, the respective secondary fa around the signal lamp recognized as defective in this way switched. This happens either on site or in the signal box through one connected to the main thread circuit Supervisor. The detection of a defective lamp thread leads to the control unit to issue a corresponding fault message for the maintenance staff whose job it is is to replace the defective signal lamp in the shortest possible time.

To ensure that the auxiliary thread of a signal lamp at defective main thread is actually the light signal lighting can take over, the functionality of the secondary thread e.g. B. checked every time the main thread is switched on or at switched on main thread constantly monitored.  

In the recent past, the Signal lamps of light signals through light emitting diode fields sets (WO 95/12512). The advantage of LEDs compared to Signal lamps mainly lie in the many times higher life duration of LEDs compared to that of signal lamps.

Should existing light signal systems for signal lamps as Luminous elements are to be converted to LED luminous signs if possible, do this without being in the signal box something changes in the control and monitoring circuits. This is however problematic, especially with regard to the minor thread monitoring. Modern LED lights come because of high life expectancy without reserve lights, d. H. for the corresponding secondary thread circles there are on site no correspondence to the light signals. Admittedly there instead of the auxiliary threads of signal lamps z. B. ohmic resistance install stands, which the interlocking the presence could pretend of secondary threads; could also be on the Based on a current evaluation, a "functional test" of the so Carry out simulated secondary threads from the signal box. If however for some reason, e.g. B. in a line sub the signal box would break, the signal box would fail switch to the secondary thread mode. Since then according to the assumption about the ohm to replace the secondary thread for the signal box a sufficiently high supply current flows to consumers the signal box would no longer be intact but still go out luminous light signal, although the light signal in question is actually dark.

The object of the invention is to provide an LED light signal Preamble of claim 1 to design so that it place a light signal operated with a signal lamp can be made without it being  Signal adjustment requires any adaptation measures. there the arrangement should be made so that if the Illuminated sign in the signal box no monitoring messages run that are not the current operating state of the light gnals correspond.

The invention solves this problem by the characterizing Features of claim 1. Thereafter, the LED light signal basically two lights, whose LEDs over the luminous area of the light signal is arranged mixed and some over the main and the other over the secondary thread circle of the light signal are to be operated. Usual Usually only the light emitting diodes of the main thread circle switched on; only in the event of a fault instead of this LEDs the other LEDs over the secondary thread circle energized. For the observer changes when switching from the main to the minor thread circle because of the through mixing the light emitting diodes of both groups of light emitting diodes none of the signal images displayed in any Wise; the functional behavior of the LED according to the invention Light signal does not differ from that of a si lamp-driven light signal. For the signal box is not recognizable whether it is to be controlled and monitoring light signal around a signal lamp operated Light signal or an LED light signal. Run it always the correct monitoring messages, d. H. for the The signal box is switched on either by a light signal its main thread lit (which is a group of LED lights tet) or by its secondary thread (the other group of LEDs shines). With that neither the control nor differ the monitoring processes of an LED light signal interlocking on the part of the corresponding control and monitoring processes against signal lamp powered light signals.  

Advantageous training and further developments of the invention Light signals are specified in the subclaims.

The invention is based on in the drawing illustrated embodiments explained in more detail.

The drawing shows in

Fig. 1 the integration of light emitting diodes in the main and secondary thread circle of a light signal, in

Fig. 2 shows the spatial arrangement of the light emitting diodes of a light sign and in

Fig. 3 shows a special embodiment of a light-emitting diode, as it can be used advantageously for the LED light signal according to the invention.

Fig. 1 shows in the upper part a first group LED-H of light-emitting diodes LED, which are to be operated via associated controls A from a main thread circuit HFK, and in the lower part a group of light-emitting diodes LED-N, the light-emitting diodes of which also via associated controls A NFK are to be operated from a secondary thread circle. If the light signal to be displayed via LEDs is to be switched on, the main thread circuit HFK is energized from the signal box. The feed current flowing through the LEDs is detected in the signal box and makes the signal that is switched on recognizable there. If the feed current falls below a predetermined limit value, the signal box switches to the feed of the secondary thread circuit NFK; this switchover can also take place on site at the light signal if a corresponding sensor is switched there for this purpose in the main thread circuit. After switching to the secondary thread circuit NFK, the light-emitting diodes of the light-emitting diode group LED-N light up and continue to convey the signal term to a signal observer. The interlocking recognizes the switched-on signal term and the respectively energized LED group by evaluating the current of the secondary thread circuit. Because of the fault that has occurred in the HFK main thread circuit, a fault message is triggered in the signal box, which can be used to initiate measures to remedy the fault.

The light emitting diodes LED shown in Fig. 1 stand for a single cell light emitting diodes or for several light emitting diodes connected in series. The controls A are used for the electrical adaptation of the characteristic curves of the light-emitting diodes of a group of light-emitting diodes to the characteristic curve of a signal lamp.

FIG. 2 shows the distribution of the light-emitting diodes assigned to different light-emitting diode groups LED-H and LED-N in FIG. 1 over the visible surface of a circularly assumed light-emitting sign. The light emitting diodes of the two groups of light emitting diodes are identified in FIG. 2 by white or black circles for conceptual differentiation. The light-emitting diodes of the two groups of light-emitting diodes are arranged in a statistically distributed manner over the light-emitting surface of the light signal, which can be identical to the visible surface of the light signal, so that even when the light-emitting diodes are fed from the main as well as from the auxiliary thread circle, they are evenly off Illumination of the light signal visible area is given.

In the exemplary embodiment shown in FIG. 1, the light-emitting diodes LED stand for individual light-emitting diodes or a plurality of light-emitting diodes connected in series, which are operated via a common control. It is also possible to connect several such light-emitting diode series circuits in parallel and to operate them via a common control. From the representation of the signal term to be displayed, it would be desirable to arrange the light-emitting diodes of the light-emitting diodes combined into subgroups over the visible area of the light signal. However, this would make flexible cables between the LEDs and the associated control necessary. From equipping the LED light signal with light-emitting diodes, in particular also in the case of replacing defective light-emitting diodes for intact light-emitting diodes, it would be more desirable to accommodate the light-emitting diodes of each of the light-emitting diodes combined into such subgroups in a fixed component, which if necessary fits into a carrier field provided for this purpose can be. In such a module, only those light-emitting diodes are preferably accommodated, which are to be fed either from the main or from the secondary thread circuit. Overall, however, it would be possible to use such building blocks with z. B. in each case eight or nine light-emitting diodes ver so arrange over the luminous area of the light signal that a homogeneous raster illumination of the luminous area of a light signal is ensured both when the main thread circuit is energized and the secondary thread circuit is energized. Such an arrangement would have the advantage that the signal pattern would hardly be affected in the event of a failure of a light-emitting diode module and that a defective light-emitting diode module could be replaced quickly and therefore inexpensively by an intact light-emitting diode module. The signal box could draw a corresponding fault message from the change in the feed current of the switched-on light signal, whereby the signal box could also recognize from the size of the current reduction how many of the light-emitting diode modules have failed and whether the signal display as a whole is so disturbed that the main thread circle to switch to the secondary thread circle.

Specific imaging properties around the LED light signals assign, it can be advantageous to the light emitting diodes Assign light signals to optics to be illuminated by them. This optics can be for all LEDs or only for each part of the light emitting diodes can be provided together.

It is for the brightest possible light sign representation It is also an advantage to include the LEDs themselves to provide an associated optic. LEDs with such optics designed mostly as converging lenses are on the market available.

Fig. 3 shows a special embodiment of a light emitting diode LED with two light chips C1 and C2, which are preferably separated, but can also be switched on together. If you turn it on together, one of the two chips will still be effective if one of the two chips is defective. This has the advantage that if a light-emitting diode fails, the associated light spot on the visible surface of the light signal does not go dark, but is still illuminated, albeit with less power. The arrangement can, however, also be made so that the two chips of each light emitting diode are to be operated from under different feed circuits, ie one is fed from the main thread circuit and the other from the secondary circuit. With such a configuration and circuitry of light-emitting diodes, there would be no change in the signal pattern that the observer can detect when switching from the main to the secondary thread circle. For the integration of several light chips in a common light-emitting diode housing, the light-emitting diodes are advantageously designed as SMD light-emitting diodes.

The LED light signal according to the invention is independent of the concrete form of a light signal circuit for control and monitoring a light signal. Instead of a si lamp-powered light signal to the existing wiring be connected to the light signal circuit and is therefore particularly suitable for the replacement of previously in the Outdoor facility provided signal lamp powered light signals len by modern LED light signals.

Claims (6)

1. LED light signal for traffic control, which is to be operated from a light signal circuit for signal lamps with main and secondary fa, the light signal circuit being designed such that it is able to monitor the lamp thread that is switched on and the secondary thread is at least temporarily a functional test undergoes, characterized in that the LED light signal has two groups (LED-H, LED-H) of light-emitting diodes (LED) for emitting radiation at least at approximately the same wavelength, which individually or in a mixture of the light surface of the light signal mixed to are and can be operated individually at least indirectly via the main (HFK) or the secondary thread circuit (NFK) of the light signal. 2. LED light signal according to claim 1, characterized, that the LEDs of the two groups of LEDs in within their respective groups, several in a row are switched, with several such series scarf lines of light emitting diodes can be connected in parallel NEN, and that the light emitting diode arrangements thus formed the luminous area of the light signal is distributed. 3. LED light signal according to claim 1 or 2, characterized, that the light-emitting diodes (LED) to achieve predetermined images properties at least one of each or several optics to be illuminated optics (O) assigned is.   4. LED light signal according to claim 3, characterized, that the light-emitting diodes (LED) are structurally connected with an optic (O) are nigt. 5. LED light signal according to claim 4, characterized, that several light emitting diodes (C1, C2) with associated optics (O) are structurally united and that part (C1) of this LEDs on the main (HFK) and a part (C2) on the ne benfadenkreis (NFK) of the light signal are connected. 6. LED light signal according to claim 5, characterized, that the plurality of light emitting diodes (C1, C2) as SMD light emitting diodes are executed.