DE965205C - Circuit arrangement for telecommunication and signaling systems with several lighting or signal lamps with low wattage - Google Patents

Description

ISSUED JUNE 6, 1957

S 27570 VIIId / Md

The invention relates to telecommunications and signaling systems and, more particularly, to control of lighting or signal lamps in such systems. The supply current for such lamps was previously either taken locally from the light or power network or from several signal lamps jointly supplied via a power line from a central point. For the control The lamps also had special signal lines and special switching devices on the Signal points required.

The invention seeks to supply and control several in parallel via transformers Low wattage lighting or signal lamps on a common line via telecommunication lines from a central point. It consists in that of the individual Lamp branch points of the common cross-section that is common from a telecommunication line Supply and control line special coupling transformers are provided, their transmission ratio the adjustment of the food

709 532/130

tials of the lamps to the respectively different potential of the supply and control line to the allows individual branch points.

This arrangement according to the invention has the particular advantage that with long lines that have a considerable resistance, the same signal lamps at all connection points are low Watt consumption can be used.

According to a further feature of the invention

ίο a flickering signal can thereby be achieved that a low voltage lying in the central station on the common line by a relay arrangement that comes into effect for the duration of the actuation of a switch is increased several times in quick succession.

The arrangement according to the invention provides separate supply and control circuits avoided and special switching means for switching on and off as well as for the light signaling saved at the individual connection points.

As an exemplary embodiment of the invention, the circuit of a signal system is shown in the drawing with several signal points lying in parallel on a common line, their lamps from fed and controlled from a central point.

On the left in the drawing are the switching means and circuits of the central station ZS and on the right the switching devices of three switching points Ai, A2. and A?> the common signal line with wires α and b. Each of the connection points Ai to Aj ₁ is assigned a signal lamp Li, L 2 and L3, which are connected to the secondary windings of the transformers Ti, T2 and T 3, the primary windings of which are connected to the wires α and b of the signal line. The signal lamps are fed at the central point ZS from an alternating current network via the transformer Tr. The secondary winding of this transformer Tr is provided with various voltage taps 1 to 7. The wires α and b of the signal line are connected to the respective taps 1 to 7 of the transformer Tr via switches TD, ND, TF and NF, the purpose of which will be explained later.

If the lamps Li to L 3 are only lighting lamps, they are switched on and off by the switch TD or ND.

The TD switch is used to switch on the lighting during the day and the ND switch during the night. As can be seen from the drawing, the wires α and b of the signal line are connected to the tapping points 1 and 5 of the transformer Tr when the switch TD is operated and to the tapping points 2 and 5 when the switch ND is operated. For daytime lighting, a higher voltage is applied to the signal line via switch TD than via switch ND for night lighting. In addition, the nohe of the applied supply voltage can be adapted to the resistance and thus the length of the signal line by changing the wiring between the switches TD or ND and the tapping points ι to 7 of the transformer Tr.

As lighting or signal lamps, lamps Li to L 3 with a consumption of about 0.4 to 1.5 watts are used at the connection points Ai to A3. The switch-on transformers T ι to Γ 3 for the lamps Li to L 3 are designed in the same way for all connection points. In order to adapt the potential required to feed the lamps Li to L 3 to the potential existing between the wires U and b of the signal lines at the service point, the secondary windings of the transformers Ti to T 3 are provided with taps for different supply potentials. As a result, the transformation ratio of the transformers can be changed in such a way that there is a supply voltage that is the same for all lamps at all connection points, regardless of the potential existing between the wires α and b of the signal line. A part of the primary winding of the switch-on transformers T is expediently subdivided into coarse voltage levels and another part into fine voltage levels. The voltage levels can, for example, be 5 volts for the left part of the primary winding and 1 volt for the right part, so that the transformation ratio of the transformers can be precisely matched to the voltage between the cores α and b of the signal line. In order to achieve the required luminosity despite the use of lamps with a low wattage consumption, the light beams emitted by lamps L 1 to L 3 are combined in a known manner by a converging lens to form a narrow bundle.

With the position shown in the drawing, certain types of flicker can also be generated by the central station. For this purpose, a switching arrangement consisting of the relays V, F and K is provided at the central point ZS, which is fed from the mains transformer Tr via a full-wave rectifier Gl in a Graetz circuit. The switching of the flicker device at the central point ZS is made in such a way that two short flashes of light in close succession are generated at a time interval of about 1 second via a weaker continuous light. Such signs can be emitted, for example, as warning signs for motorways in the event of a risk of ice.

The switches TF and NF are used to switch on the flicker device. The switch TF is operated during the day and the switch A ^T F at night, so that, as described above for the permanent lighting, a higher voltage is applied to the wires α and b of the signal line during the day than at night. When the switch TF is flipped over the wire α of the signal line via the resistor Wi ι at the tap 1 of the transformer Tr and the wire b directly at the tap 7. The size of the resistor Wi ι is chosen so that the voltage applied to the signal line is about which is set via the switch TD

applied voltage. When the switch is flipped, the rectifiers Gl are also connected to the tapping points 3 and 7 of the transformer Tr via the contact TF 3. The rectified alternating voltage now initially makes a response via contact 1 / relay V , which switches on by closing its contact 2 ν via normally closed contact 3 / winding I of relay F. A charging current for the capacitor C 4 now flows through the contacts 4 / and 5 ν and through the winding of the relay K. For the brief duration of the charging of the capacitor, the relay K is therefore made to respond and closes the resistor with its contact 6 k Wi 1 at the wire α of the signal line short. This causes a brief increase in voltage, which results in the signal lamps Li to L 3 lighting up brightly at the connection points Ai to Α $ . For the duration of relay K being spoken to, relay V is kept energized via contacts 2v and Jk. As soon as the relay K drops out, it interrupts the circuit for the relay V ₁ at the contact 7 k via the winding of which the charged capacitor C 2 is discharged, so that the relay drops out with a delay. The relay F remains in the charging circuit of the capacitor C1, which has a large capacity, energized for about 1 second. As soon as the relay V drops out, a charging circuit for the capacitor C 3 is established via the contacts 8 / and gv and via the winding of the relay K. The relay K responds again briefly and increases the supply voltage on the signal line a, b by short-circuiting the resistor Wi 1. At the same time, the capacitor C 4 is discharged via the contact ioz / and the resistor Wi 3. If the relay F drops out, the relay V is switched on again via the contact 1 f , so that the relay K responds again briefly and the capacitor C 3 is discharged via the contacts 8 / and uz / and via the resistor W13 . The processes described above are repeated until the switch TF is returned to the rest position.

The short-term voltage increases through the relay K of course do not need to be brought about by short-circuiting resistors on the signal lines, but can, without changing anything in the essence of the invention, by connecting the signal wires to a higher secondary voltage of the transformer Tr via contacts of the relay K can be caused.

If the switch NF is actuated, the rectifier Gl is switched on via the contact NF 3 , whereby the relays V, F and K are effective in the same way as previously described when the switch TF is flipped. Whenever the relay K responds, the resistor Wi2 connected to the signal line α via the switch NF is short-circuited via the contact 12 ε. In this way, two short flashes of light are superimposed on a weak continuous light from the lamps Li to L 3 even at night.

The lamps L with their switch-on transformers T can be accommodated in the telephone columns that are set up at certain intervals on the motorways. In addition, the invention is not limited to the illustrated embodiment. In particular, the facilities of the central office ZS for generating the flicker signals could be given a different suitable design or generate light signals of a different type than the previously described flicker symbol.

Claims (6)

PATENT CLAIMS: 1. Circuit arrangement for telecommunications and signaling systems with several lighting or signal lamps of low wattage, which are fed and controlled from a central point with alternating current via a common line to which the lamps are connected in parallel via transformers, characterized in that on the individual lamp junction points (A i, A 2, A 3) of the common feed and control line (a, b) consisting of a communication line with the usual cross-section, special coupling transformers (T 1, T 2, T 3) are provided, the transformation ratio of which is adapted the supply potential of the lamps (Li, L2, L 3) to the different potential of the supply and control line at the individual branch points. 2. Circuit arrangement according to claim 1, characterized in that similar transformers (T) are used for the inductive coupling of the lamps at all connection points (A 1 to A 3), the primary windings of which have taps for the different potentials at the connection points of the common supply and control line are provided. 3. Circuit arrangement according to claim 2, characterized in that part of the Primary winding of the switch-on transformers (T) in coarse voltage levels (e.g. 5 volts) and the other ί · η fine voltage levels (z. B. ι volts) is divided. 4. Circuit arrangement according to claim 1 for signal systems with flicker signaling by increasing a number of times briefly in succession a low voltage lying in the central point on the common line, characterized in that the brief voltage increases by a for the duration of the actuation of a switch (TF or NF ) Relay arrangement (Kj V, F) coming into effect can be brought about automatically. 5. Circuit arrangement according to claim 4, characterized in that the relay arrangement consists of the actual control relay (K) and two auxiliary relays (V and F) working with different drop-out delays, via their contacts (v and f) the control relay into the charging and / or discharge circuits of capacitors (C3, C 4) is placed. 6. Circuit arrangement according to claim ι or 4, characterized in that the operating voltages are taken from a light or power network via a transformer (Tr) whose secondary winding is provided with various voltage taps (i to y) . 7- Circuit arrangement according to claims 4 and 6, characterized in that the direct voltage for the relay arrangement (K, V, F) is generated by the secondary winding of the mains transformer (Tr) (Gl) . fed rectifier 15 Publications considered: German Patent Nos. 149 437, 702 069, 555705, 633586, 410783, 564938, 630578, 821,962; French patents No. 785 606, .677251, 924780; Swiss patent specification No. 247 908. 1 sheet of drawings)