FI97674B - Main / auxiliary filament switching switch for AC-supplied double filament lamps in traffic signaling installations - Google Patents

Abstract

The main/standby filament switch is controlled by a main filament monitor. The latter is constructed as an optocoupler (U1) which is coupled on the input side, e.g. in the form of a transformer (T2), to the main filament circuit. The switching transistor of the optocoupler is at a DC voltage and, when it is set, short-circuits a light-emitting diode, which is at a supply voltage, or separates its supply circuit. This light-emitting diode is the transmitting diode of an electro-optically controllable AC switch (U2), whose receiving diodes are connected via the standby filament (NF) of the lamp (L) to the supplying current supply device (T1). When current is flowing through the light-emitting diode, the AC switch switches through an AC switch (TR) arranged in the circuit of the standby filament. The main/standby filament switch has exclusively electronic switches for carrying out the switching processes required. <IMAGE>

Description

5 97674 Main / auxiliary filament switching switch for AC-supplied double filament lamps in traffic signaling installations

The invention relates to a main / auxiliary filament switching switch according to the preamble of claim 1.

10 Double filament lamps are used almost exclusively to illuminate the signal lights of railway signs. The second filament is a so-called main filament with which illumination usually takes place, and the other is a so-called auxiliary filament which, when the main filament burns across, is automatically switched on and which then takes over the operation of the burned main filament. For switching from the main filament to the auxiliary filament-Galle, the main / auxiliary filament switching switches are common, which indicate the current flowing through the main filament, and which in the de-energized state, i.e.

If the 20 main filaments fail, switch on the respective auxiliary filament. The main filament monitors are usually implemented with relays and arranged in the vicinity of the signal lamps to be monitored (DE 34 16 612). 1 2 3 4 5 6 7 8 9 10 11

In order to keep the costs of main / auxiliary filament monitors as low as possible, electronic 3 / · 4 electronic main / auxiliary filament switches (DE 11 81 792) have already been developed, which can avoid the use of expensive special relays. In these electronic main / auxiliary filament switching switches, special indicators are connected to the main and auxiliary filament circuits 7, which indicate the lamp current passing through them. As long as the main filament 10 is lit, its control signal is that the indicator switches the electronic switch 11 in the auxiliary filament supply circuit to high resistance, and only when the supply current through the main filament falls below the lower limit value is the switch on the auxiliary filament circuit switched on. This known head / auxiliary filament changeover switch requires a whole range of electronic and electrical components for use and is thus relatively expensive.

5

The object of the invention is to provide a main / auxiliary filament switching switch according to the preamble of claim 1, in which the smallest possible number of advantageous electronic components tested in practice are used, and which is thus particularly reliable.

The invention solves this problem with the features of claim 1. Preferred embodiments are set out in the dependent claims.

15

An embodiment of the invention will now be described in more detail with reference to the drawing.

The drawing shows a signal lamp L in the form of a double filament lamp with a main filament HF and an auxiliary filament NF used in railway light signals. The signal lamp is supplied via the lines shown in bold in the drawing, for example from a lamp transformer T1 arranged close to the signal lamp, which is energized as required from the remote applicator device via the supply lines and which then supplies the lamp with lamp current. The main filament '! in series there is a primary winding of the current transformer T2, whereby opposite transmission diodes of the optical switch U1 are connected to the secondary windings of the transformer via a current limiting resistor 30. With a sufficiently large lamp current passing through the main filament, current is passed through the transmission diodes of the optical switch Ui and they control the associated switching transistor to a low-current switching state. This switching transistor is connected to a direct voltage from the output of the rectifier circuit G, which in the embodiment is derived from the AC voltage 97974 from the secondary side of the lamp transformer T1. In its conductive state, the switching transistor of the optical switch U1 then controls the switched electronic switch S1, for example the channel transistor, to the conducting state, where it short-circuits the optoelectronically controlled AC switch U2; the electronic switch S1 and the transmission diodes of the electronic alternating current switch U2 are likewise connected to the voltage obtained from the rectifier G.

The electronic AC switch U2 operates to switch the electronic filament switch TR, preferably a Triac main filament, arranged in the circuit of the auxiliary filament NF to either low or high ohmic, depending on the operating mode. The receiving diodes of the electronic AC switch U2 receive their supply voltage via the auxiliary filament NF 15 from the lamp transformer T1 supplying the lamp. The current flowing through them is set so small by the resistors to be switched on that the auxiliary filament is not yet ignited by the current-free transmission diode of the AC switch U2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

In the assumed situation, the switch SI has short-circuited the switch 2

the transmission diode of the power switch U2. AC switch TR

The potential at the control input 3 cannot switch the AC switch 4 to low resistance, and the auxiliary wire 5 of the signal lamp L remains off.

6 7

If the main filament HF of the signal lamp burns, then the switching transistor of the optical switch U1 8 becomes high-resistance and 9 it then switches the electronic switch S1 to the non-conducting state 10. The electronic alternating current switch U2 now flows through the transmission diode 11, and it switches the associated 12 receiving diodes into low ohms. Thus, a sufficient potential 14 • · 15 is applied to the control input of the Triac 13 TR to conduct this switch. When the triac is made conductive, the signal circuit of the signal lamp passing through the auxiliary filament NF becomes low-ohm, and the signal lamp returns to the auxiliary filament gall.

4 97674 An optical switch U3 is provided for indicating a switched-on auxiliary filament, the transmission diode of which is connected in series with the transmission diode of the electronic AC switch U2. As soon as the main filament of the signal lamp is lit, the switch S1 short-circuits the transmission diodes of the electronic AC switch U2 and the optical switch U3, so that the switching transistor of this optical switch is high-resistance. Only in the case of the switched-on auxiliary filament wire does the current flow through the transmission diode of the optical switch U3 and the switching transistor 10 is connected as low-resistance.

If it is desired to monitor the burning of the main filament in the interlocking device, then the transmission diode of the corresponding optical switch must be connected in series with the transmission path of the switch S1 or the transmission diode of the first optical switch 15 Ui.

In the illustrated embodiment, the electronic switch S1 short-circuits the transmission diode of the electronic AC switch U2 when a supply current passes through the main filament HF.

However, the arrangement can also be made in such a way that the switch S1 in this case disconnects the transmission diode supply circuit of this AC switch.

As an exception to the embodiment shown in the drawing, the switching transistor of the optical switch U1 may also short-circuit the opener diode of the optoelectronically controlled AC switch U2 immediately or disconnect its supply circuit.

'[Due to the ripple of the voltage applied to the transmission diodes of the optical switch Ui, there is a very small pulsating DC voltage in the switching path of the switching transistor 30 of the optical switch. In order to prevent the optoelectronically controlled alternating current switch U2 from being switched on due to this direct voltage, a capacitor must be connected in parallel with the switching path of the switching transistor of the optical switch to filter this voltage. Possibly, there is still a zener diode to be connected in series with the transmission diode of the optoelectronically controlled alternating current switch U2, the zener voltage of which is: äo> hedgehog i i t <tt i 97674 5 at least equal to the voltage on the capacitor of the optocoupling switching transistor in the conducting state. This zener voltage sums up the transmission voltage-5 of the transmission diode of the optoelectronically controlled alternating current switch and prevents the control of this switch from conducting when the main filament burns.

In the above-described embodiment, the supply voltage of the oppositely connected input diodes of the optical switch UI is taken from the secondary winding of the current transformer T2, the primary winding being connected in series with the main filament of the signal lamp. Of course, in contrast to this embodiment, it is also possible to take the voltage of the transmission diodes of the optocoupler U1 from an apparent resistor in series with the main filament of the signal lamp, for example a resistor. A single light emitting diode can also be used as the transmission diode of the optical switch Ui.

The main / auxiliary filament switching switch 20 according to the invention requires only a minimum number of cheap and practically tested electronic components, and is designed in such a way that by connecting other electronic components, both main and auxiliary filament monitoring messages can be easily generated.

25 hrs 1 35 ·

Claims (9)

1. Head / auxiliary glow switch for alternating voltage-fed lamps with dual glow lamps in traffic signal plants, especially railway light signals, which comprise a main glow lamp monitor in the respective signal lamp controlled by the current of the lamp for switching on auxiliary glow lamps. that the main filament monitor is designed as an optocoupler (UI), the input side of which is connected to a transformer to the main filament circuit or which is connected in parallel with a pseudoresistance to the main filament circuit, to that of the optocoupler (UI) coupler transistor controlled state indirectly or directly, at least one LED is connected to an operating voltage or breaks its supply circuit, that this LED is the transmitting diode in an optoelectronically controllable alternating current switch (U2), whose receiving diodes are connected via auxiliary glow the (NF) Tili feeding power-supply device (T), said diodes, when current 20 out of the transmitting diodes, connects a glow means in trees MA tarkrets arranged electronic alternating current switch (TR) as conductive. 2. The head / auxiliary filament switch according to claim 1, characterized in that the optocoupler (UI) on the input side is connected via the main filament lamp (HF) of the signal lamp (L) to the signal supply device (T1) and comprises two: inversely connected transmitting diodes. • M • «·» · • · * 3. Main / auxiliary glow switch according to claim 1, characterized in that the optocoupler (UI) switch transistor i. Conductive state causes the electronic switch (SI) to short-circuit said at least one transmitting diode in the optoelectronically controllable AC switch (U2). 4. The head / auxiliary filament switch according to claim 3, characterized in that a capacitor is connected in parallel with the coupling path of the optoelectronic switching transistor. : i ää f mi; m m! 35 9 97674 5. A head / auxiliary filament switch according to claim 3 or 4, characterized in that, with said at least one transmitting diode in the optoelectronically controllable alternator (U2), a zener diode whose zener voltage is at least equal to the voltage of the coupling path of the coupling path is provided. controlled optocoupler or at the capacitor. The head / auxiliary filament switch according to claim 1 or 10, characterized in that with said at least one transmitting diode in the optoelectronically controllable AC switch (U2), with the switching path of the electronic switch (SI) and / or the switching path for the switching transistor in the switching switch The LED of the second optocoupler 15 (U3) is connected in series, the switch transistor of the switch having the function of triggering a monitoring message. The head / auxiliary filament switch according to claim 3, characterized in that the electronic switch (SI) is designed as a channel transistor. The head / auxiliary filament switch according to any of claims 1-7, characterized in that the operating voltage for driving the DC components of the main / auxiliary filament switch can be obtained from a rectifier (G), whose input side; is connected to a lamp transformer (T1) which supplies the signal lamp (L). • · · • i i • I < 9. Head / auxiliary filament switch according to claim 1, characterized in that the electronic switch (TR) is designed with Triac. • · «•