DE1012544B - Impulse generator, especially for signaling systems - Google Patents

Description

GERMAN

The well-known pulse generators, which od in signaling systems, command systems. The like. For signaling Send out current surges, form these current surges by actuating contacts. The effectiveness of such Contacts depends on the perfect operating condition of the contact surface. This serviceability can be affected by climatic or other influences, so that despite periodic Maintenance at the time of an actuation, the current impulse fails.

The aim of the invention is to reduce the possibility of interference with such impulse generators and to enable impulses to be given without actuating contacts. The invention is based on known pulse generators equipped with audio frequency generators. While in the known arrangements, however, the audio frequency generator is intermittently connected to a line by mechanically moved contacts, according to the invention the coil of a resonant circuit of the audio frequency generator is used to change the magnetic circuit of its iron body and thus to change its self-induction value. ", equipped, which can be mechanically displaced "and through their mechanical displacement., the transmission can be controlled in pulses.-1st 'the iron core of the coil z. B. not closed, the frequency of the resonance circuit is not matched to the generator frequency, and the generator oscillates so that the current generated by it zt-c ■ is sent out. However, if the iron circuit of the coil is closed by mechanical displacement of an iron part, the resonance circuit is tuned to the generator frequency. As a result, the corresponding line of the generator becomes highly resistive and the oscillation stops, without any significant change in frequency.

The invention particularly advantageously uses an audio frequency generator equipped with a transistor, which draws its power from the message line. Here is the circuit of this generator chosen so that only in the case of the oscillation state direct current power over the message line is related. If the generator oscillation is interrupted, the direct current feed also goes of the generator back to the value »0«.

A signaling system with such detectors can be set up with a star-shaped line network or with a loop-shaped line network. In a star-shaped network, each reporting point can receive the same reporting frequency. In such a system, with simultaneous closed-circuit monitoring, two criteria are available for issuing a message about a wire break, «/ fr short circuit or a real alarm:
especially for signaling systems

Applicant:

Telefonbau and Normalzeit GmbH,
Frankfurt / M., Mainzer Landstr. 134-146

Dr.-Ing. Erich Gössel and Dr.-Phys. Heinz Merten,

Frankfurt / M.,
have been named as inventors

frequency in the reception center and, secondly, in the event of a real alarm and wire breakage, the omission the direct current feed line for the generator.

With a system based on the loop system, each reporting point receives a different frequency. The marking of the real alarm then means the loss of the frequency of the activated detector (at the same time local marking). Also for wire break messages, earth faults and closed-circuit current monitoring are the criteria exist. The evaluation of the direct current criterion is only possible in stages, since the the entire supply current of all generators is drawn via the loop and, when a tone generator is suspended, the entire DC power of the Loop is only reduced by the proportion of this one generator.

If such a reporting system does not work in closed-circuit operation, but in the working current method, the contactless control of the audio frequency generator takes place in reverse. The complex control resistor in the audio frequency generator is then When the detector is not activated, the audio frequency generator is tuned to the resonance frequency therefore does not vibrate. If the detector is activated, the control circuit is away from the generator frequency detuned, the generator oscillates and transmits audio frequency voltage to the reception center.

An embodiment of the invention is shown in the drawing. This shows the basic circuit of a signaling system with a tone frequency generator suitable as a detector. The line between the reporting point and the receiving point EZ is connected to the terminals AIB . In the receiving station EZ , the devices for evaluating the audio frequency and direct current criteria are not shown;

709 588/43

such facilities are known in principle. Only a current source BA connected to the line is indicated.

The audio frequency generator of the reporting office contains a transistor Tr, which is fed from the line Ltg via the chokes Dl, D 2. The feed line is bridged by a capacitor C 1. In the base circuit of the transistor there is a resonance circuit which is formed from a capacitor C 2 and an inductance L 2. The inductance L 2 is a winding of a transformer formed from the windings L1, L2 and L 3. The winding L1 transmits the audio frequency generated in the oscillating circuit L2IC 2 to the line via capacitors C 3 and C 4. In the emitter circuit, apart from the winding L 3 of the transformer, there is a coil L 4 in parallel with a capacitor C 5. The iron core of the coil L 4 is E-shaped or pot-shaped. The iron circuit of the coil L4 can be closed by an appropriately designed iron piece F. The iron piece F is connected to a handle G and can be moved mechanically.

If the piece of iron F is in contact with the core K and the iron circuit of the coil L 4 is closed, then the oscillating circuit formed by the coil L 4 and the capacitor C 5 is tuned to the same frequency as that of the coils L 2 and the capacitor C. 2 formed oscillation circuit. The oscillating circuit Li / C5 is therefore in resonance with the generator frequency and has a high resistance. This has the consequence that the oscillation of the transistor generator stops and at the same time the transistor does not draw any supply current from the line. If, on the other hand, the iron piece F is so far removed from the core K that its influence disappears, then the transistor oscillates at the frequency determined by the oscillating circuit L2 / C2 because the resistance of the circuit LAIC5 is very small. To do this, the transistor takes the supply current from the line.

Due to the mechanical displacement of the iron piece F , the vibration is switched on or off and the required and evaluable reporting criteria are given in a contactless manner. If the reporting office has to give an identifier made up of several pulses, then the mechanical control of the handle G of the iron piece F is expediently carried out by a cam drive known per se, which is triggered by the operator to run under the influence of a barrel.

Claims (5)

Patent claims: 1. Current impulse generator equipped with an audio frequency generator, especially for dispensing of messages, characterized in that the coil of a resonant circuit of the generator means to change the magnetic circuit of your iron body and thus to change the Contains self-induction value of the coil, through the mechanical displacement of which the shipment can be controlled in pulses. 2. Impulse generator according to claim 1 for signaling systems, characterized in that the audio frequency generator is equipped with a transistor, which is fed via the message line relates. 3. Impulse generator according to claim 1, marked by such an arrangement of the Coil of a resonant circuit that the audio frequency generator does not oscillate as long as the control resistor is set to the resonance frequency when the iron circuit is open is matched. 4. Impulse generator according to claim 1 and 3, characterized in that the variable with the Coil equipped resonance circuit is located in the emitter circuit of the transistor. 5. Impulse generator according to claim 1, characterized in that the variable coil has a E-shaped or cup-shaped iron core, which is mechanically movable by a Iron piece is to close. Considered publications:
German utility model No. 1 682 467. 1 sheet of drawings 1 709 588/43 7.