DE581141C - Electrical communication equipment - Google Patents

Description

Bor. Ind. EigendoB?

18 AUG. ISIi

ISSUED. AT THE
JULY 21, 1933

REICH PATENT OFFICE

PATENT LETTERING

• CLASS 74 c GROUP 13 so

Patented in the German Empire on July 27, 1928

It is known to use various signals for multiple use of a line system to transmit successively on the same line system, with different receiving devices and, if necessary, various transmitters one after the other using selector switches or Synchronous switch connected to the line system. Should a given signal also during the signal pause during which other signals are being transmitted So it is necessary to keep the receiving apparatus with the ability to remember, so to speak equip. This can be done by using a tilting device as the receiving device.

relay is used whose armature when a signal is transmitted to the corresponding Tilts position in which, since the signal on the toggle relay is stable, it remains until the Counter coil excited by a redemption signal

ao becomes, whereupon the armature tips over into the other position. However, with this arrangement Faults caused by interruption of the telecommunication circuit are not displayed. So if the Telecommunication circuit is disturbed before a signal is emitted, the relay armature remains in its last position. In the case of continuous signal output, use when interference occurs Interruptions are to be displayed, relays or display devices with two winding systems for two signal positions and one middle position (fault position). With interrupted Signal output is the use of such relays or display devices without. further not possible, since during each signal pause the anchor go into the middle position 3! would. This can be done in a known manner Avoid the use of drop stirrups, which, however, occur with periodic signal output rattle constantly, which means that individual parts are quickly worn out. The snap back 4 < in the central position can also "be avoided in a known manner that the anchor even through an auxiliary contact a local circuit closes the last energized relay winding or a holding winding, which has the same effect on the armature, flows through.

According to the invention, the disadvantages mentioned are avoided and the circuit is thereby avoided simplified that in a telecommunication device with interrupted transmission of two various signals through relays or display devices on the receiver "a toggle relay used with automatic return to the central position when there is no current which remains in the assumed signal position when both winding systems are excited during the signal pause.

In the drawing, an embodiment of the invention is shown schematically in Fig. 1. Fig. 2 also schematically shows a further embodiment, and Figs. 3 to 5 show some locking options for securing the central position of the relay. On the encoder side G there are signal switches, two of which, U ₁ and ZJ ₂ , are shown. These are on the one hand connected to the receiving point E by the line I ₁ and are

on the other hand, alternately connected to lines I ₂ and Z _{3 by the switching device S 1} at the encoder point. The brushes I _{1 of} the switching device S ₁ move synchronously and in phase via the positions I to V with the brushes b _{2 of} the switching device S ₂ on the receiver side, in such a way that each switch U ₁ , U _{2 of} the corresponding receiver% or e _{2 is} allocated. The battery f is located in the course of line I _1. Each receiver e _v e ₂ has two winding systems that act on an armature k in opposite directions according to the two signal positions % and y . Each winding system consists of a signal _{coil J 1} , i _z and a holding coil Ji ₁ , Ji ₂ . When there is no current, the armature k is brought into the central position m by the action of a weight or a spring. The holding coils A ₁ , Ji ₂ are during the signal pauses, ie in the positions of the switching devices between the positions I to V by means of the brushes b _{s of} the switching device S ₃ moved synchronously _{with the brushes O 1} , b ₂ in a local current with the local battery ο switched on. If the receivers are set up in such a way that they _{remain in the existing signal position when both holding coils A 1} , A ₂ are excited, as long as a certain signal is periodically emitted, for example the receivers are in position χ and the coils i _{x are excited,} the armature k of the receiver remain in position χ , but when a second signal is transmitted via the middle position m it goes into position y and remains there. However, if a fault occurs in one of the telecommunication lines due to 'interruption, then after switching off z. B. the receiver in the position χ moving telecommunications current of the armature k fast in the central position. When both holding coils Ji ₁ , Ji ₂ are subsequently switched on, the armature is moved to any end position if the center position is not stable, and when the next signal is ready it will snap back again, so that the disturbance is indicated by the armature's unrest.

However, the holding coils can be saved and the holding current can flow through the signal coils i of the receivers themselves. Such a device is shown in Fig. 2. The switching device S ₂ at the receiving point E is provided with additional grinding brushes b ₃ , which are mechanically combined with the brushes b ₂ and are moved together with them in synchronism with the brushes O ₁ on the transmitter side. In the position shown of the brushes b _{2 of} the switching device S ₂ , the coil I _{1 of} the receiver C _{1 is} excited, and the armature assumes the position shown. When brush b ₂ slides from this contact, ie when the signal is interrupted, the next brush b ₃ in the sequence runs onto the same contact and remains in contact with it until brush b _z hits the next following contact of the switching device S ₂ for the new signaling runs up. By means of these brushes b ₃ , a holding circuit via the coils i of the receivers e _x and e ₂ and via the battery f is thus closed during the signal pauses. As a replacement. the voltage drops in the telecommunications circuit, a resistor r can be arranged in the holding circuit. But you can also introduce a counter voltage or take the holding current from a tap on the battery f . The oscillation of the armature in the event of a malfunction can be avoided by dimensioning the directional forces and electromagnetic forces acting on the armature when both winding systems are excited so that the central position becomes stable, that is, the resulting force on the in an area near the central position Anchor is directed towards the central position.

To lock the receiver relay in the middle position, the armature k , which is under the action of the spring p , can be provided with a detent device t as shown in Fig. 3, an electromagnetic lock ν as shown in Fig. 4 or a lock ie> in the manner of a crank loop as shown in Fig. 5.

Claims (9)

Patent claims: i. Electrical telecommunication device with interrupted, in particular periodic Transmission of two different signals by relays or indicators with one winding system each on the receiver for the two signal positions of the armature and one position that is the complete one Currentlessness corresponds, characterized in that a toggle relay with automatic feedback on the receiver in the middle position when there is no current, which is used when excited of both winding systems remains in the assumed signal position during the signal pause. 2. Telecommunication device according to claim 1, characterized in that the winding systems have subdivided coils, one of which (J ₁ , i ₂ ) are placed in the signaling of different communication lines, while the other coils of both winding systems (A ₁ , Ju) in the signal pause are traversed by a local current as holding coils. 3. Telecommunication device according to claim 1, characterized in that for signaling and the same coils of the winding systems are used for holding, those at the time of the signal readiness to the telecommunication lines, during the signal pause but can be switched into a holding circuit (Fig. 2). 4. Telecommunication device according to claim 2, in which the same voltage is applied to the telecommunication and the holding circuit, characterized in that to replace the voltage drops in the telecommunication circuit resistors (r) or counter voltages are arranged in the holding circuit. 5. Telecommunication device according to claim 2, characterized in that the holding current a tap of the battery in the telecommunications circuit is taken. 6. Telecommunication device according to claim 1, characterized in that the receiving relay or the display device, the forces acting on the armature when both winding systems are excited are that the resulting force from the directional force and the electromagnetic Effects when the anchor is positioned near an end position away from the central position, when the anchor is positioned near the central position is directed towards. 7. Device according to claim 1 and 6, characterized in that the lower Spring action standing armature of the relay or the display device in the central position is held by a detent device. 8. Device according to claim 1 and 6, characterized in that the armature of the relay or the display device in the central position by an electromagnetic Blocking is held. 9. Device according to claim 1 and 6, characterized in that the central position the armature of the receiving relay or the display device is secured by a lock in the manner of a crank loop. For this purpose ι sheet of drawings