DE886472C - Switching arrangement with differential relay responding to low-period alternating current - Google Patents

Description

Switching arrangement with responsive to low-period alternating current Differential relay The invention relates to circuit arrangements with low-period AC responsive differential relay and achieved through the special training a DC auxiliary circuit, which is the working relay belonging to the differential relay @ e.contains that the working relay does not respond to a single current surge, but only responds to a continuous sequence of several waves. This benefit can. general for automatic switching purposes, for remote control purposes, etc. are used. First However, line is on the application of the new switching arrangement for automatic switch-on from bypass routes to four-pole connections in telecommunication lines, such as transmitters, Amplifiers, sieve chains and measuring devices, thought with an unwanted switching through individual current surges or charges and through external currents running through the lines should be avoided.

The switching arrangement designed according to the invention with on low-period Alternating current responsive differential relay: s consists in that the differential relay. influenced a DC auxiliary circuit in which in the cycle of the low-period AC circuit a capacitor in which a half-wave is connected to a direct current source and in the second half cycle its charge to a second capacitor for control a working relay connected in parallel to this.

The essence and main features of the invention are as follows initially on the basis of the in Figs. i and: 2 shown embodiment described.

According to Fig. I is in series hzw. in chain with the communication lines F1 and F2 of the four-pole Vp switched on via the switching contacts al and all. The quadrupole Let Vp be, for example, a measuring device switched on in the line, the. For execution of measurements on the telecommunication line in operation is un id for frequencies within its restricted area, e.g. B. for low-period call currents one-en 'high Has resistance and thus a blocking of these currents would result. In this case, the invention aims to automatically switch off the quadrupole Vp due to the low-period alternating current and the simultaneous activation of the Bypass U. For this purpose, the polarized, highly sensitive and high-resistance differential relay D switched on, which is based on the low-period alternating current is matched and its normally open contact or relay tongue According to the invention, d lies in the direct current auxiliary circuit shown in FIG.

This DC auxiliary circuit operates in the following way: Irr the moment shown is the changeover contact d in the rest position in the Position z. When the first half-wave of the low-period alternating current arrives goes the. Relay tongue d in position i, and the capacitor C1 through the battery B is charged via the limiting resistor R1, when the relay reed d flips into position 2 at the second half-wave, the capacitor C1 charges the Capacitor C2 on. This again discharges via the working relay A accordingly the time constant of this discharge circuit and brings the working relay so slightly to the excitement that it does not yet respond. By a: permanent sequence of low-period Alternating current waves, the changeover contact d is placed alternately in position i and 2, and it is only then through the repeated charging or discharging of the capacitors Cl and C2 actuates the working relay A, 'which with its contacts a, and all the quadrupole Vp switches off and at the same time switches on the bypass route U. Will the differential relay D is no longer activated, the working relay drops out again, and the quadrupole Vp is automatically switched back into the line.

In the event that the four-pole connected to the line is hoc'hempfindlidhe Contains elements such as highly sensitive direct current galvanometers or other devices, according to the further invention, precautions are taken to avoid these sensitive To protect elements against harmful currents when the four-terminal network is switched off or after an automatic switch-on of the four-terminal network; can arise. Related particularly advantageous precautions are shown in FIGS. 3 and 4 Execution options described.

According to FIG. 3, the highly sensitive galvanometer G is connected to the additionally shown terminals of the four-pole Vp. According to the invention, in a further development of the embodiment shown in FIG. 2, the working relay A is assigned the working contact all, located in the galvanometer circuit. The relay A ' expediently works in such a way that the contact all is closed earlier than the contacts a and all and thus short-circuits the galvanometer G and protects it against harmful inrush currents.

Another danger for the sensitive galvanometer G is that that it. even after an automatic switch-on of the four-terminal network due to sudden On charges, or by control signals. The like. Can be damaged. To avoid this disadvantage is provided for the working relay A, the contact alv, which in the circuit battery B, resistor R2, contact a, v, isolating contact T, latch K, Working relay A is on. This circuit ensures that after responding of the working relay A this receives a continuous current and thus the four-pole Vp is switched off remain. A separation of the permanent current circuit containing the Iden Arbeitsleontakt al` * and the associated activation of the four-pole connection is only possible by actuation the latch K or the isolating contact T is possible. However, this can be done arbitrarily are secured after the sensitive galvanometer G by some measures has been.

As a further safety measure, the differential relay D is automatically switched off after the working relay A has been energized and the continuous circuit has been switched on. For this purpose the contact av assigned to the working relay A in the circuit of the differential relay is used, which opens when the working relay responds. After the continuous circuit is interrupted by arbitrarily actuating the latch K or the isolating contact, the contacts al to aiv of the working relay A fall back into their rest position.

It can be beneficial in the circuit of the differential relay Switch on the amplifier in order to reduce the low-period effects acting on the differential relay To amplify alternating currents. For this purpose, the known mechanical amplifiers be used. For the case @ that with modulated low-period alternating currents is signaled, demodulation devices known per se can be provided to the differential relay the originally modulated low-period alternating current to feed.

The circuit arrangements proposed according to the invention are with particular advantage for the recently developed method for executing equal and alternating current measurements can be used on telecommunication lines in operation, after in the course of the lines on both sides of the line section to be examined Networks (four-pole) are switched on: those with regard to their characteristic impedance are adapted to the wave resistance of the line and on the one hand the crossing of the Prevent measuring currents from the line section to be examined to the neighboring sections, without thereby interrupting the operating currents, and on the other hand by their symmetrical Structure the interference-free connection of the measuring devices and the execution of the measurements enable. This method is particularly useful when performing direct current measurements '' uses highly sensitive direct current measuring devices that are protected against strong currents that can enter the meter.

Claims (6)

PATENTAN LANGUAGES. r. Circuit arrangement with on low-period AC responsive differential relay, especially for automatic switch-on from. Bypassing routes to four-pole connections in telecommunication lines, such as transformers, Amplifiers, sieve chains, measuring devices, characterized in that the polarized, highly sensitive and high resistance differential relays. (D) a DC auxiliary circuit influenced, in which in the cycle of the low-period alternating current a capacitor (C1) one half-wave is applied to a direct current source (B) and the second Half-wave its charge to a second capacitor (C2) to control one of this working relay (A) connected in parallel. 2. Circuit arrangement according to claim r for switching four-pole or other circuits that contain highly sensitive elements, such as highly sensitive galvanometer or the like. Contained, characterized by a additional contact (all,) assigned to the working relay (A), through which the highly sensitive Element is short-circuited or switched off before the four-terminal circuit is switched off. 3. Circuit arrangement according to claim z for switching four-pole or other circuits that contain highly sensitive elements, such as highly sensitive galvanometers or the like B, resistor R2, contact aIv, isolating contact T, latch K, working relay A) closes, which is only arbitrarily, e.g. B. by means of the isolating contact, T or the latch K, can be separated. q .. Circuit arrangement according to claim r, thereby characterized in that the working relay (A) has a circuit in the differential relay (D) horizontal contact (av) is assigned to which the differential relay responds of the working relay automatically disconnects from the line. 5. Circuit arrangement according to claim z, characterized (by in the circuit, the differential relay (D) horizontal amplifiers, e.g. B. mechanical amplifiers, to amplify the lower, iodine Alternating currents. 6. Application of the circuit arrangement according to claim z or the following Claims for the method for performing direct and alternating current measurements on lines in operation .., especially when using highly sensitive ones Galvanometer or the like, according to which in the course of the lines of the line section to be examined Networks (four-pole) are switched on with regard to their characteristic impedance are adapted to the wave resistance of the line and on the one hand the crossing of the Prevent measuring currents from the line section to be examined to the neighboring sections, without interrupting the operating currents, and on the other hand by their symmetrical Structure of the interference-free connection of the measuring devices as well as the execution of the measurements enable.