DE365956C - Circuit for the transmission of signals - Google Patents

Description

GERMAN EMPIRE

ISSUED
ON DECEMBER 23, 1922

REICH PATENT OFFICE

PATENT LETTERING

- JVr 365956 - CLASS 74c GROUP

(S52456 VIIIl ₁₄ C)

Siemens & Halske Akt.-Ges. in Siemensstadt b. Berlin*). Circuit for the transmission of signals.

Addendum to patent 363340.

Patented in the German Empire on March 7, 1920. Longest duration: February 16, 1935.

Patent specification 363340 describes a circuit for the transmission of signals in which various signals can be produced at a receiving point by means of successive current impulses emanating from a command component, in that a corresponding group of relays is energized with each current impulse. Although you can expand this facility · ibeliebig ^1; and ¹ example

*) The patent seeker stated as the inventor:

Oskar Koch in Charlottenhurg.

wise several donors for this purpose and use several recipients, but if there is a large number of to be transmitted Signals the facility! Confusing and expensive if for each signal according to the Main patent a special signal group is provided.

According to the invention, different donors now apply, each with one connected to it Receiver used, but with the signals expedient by numbers expressed in the manner transmitted be that the one giver is exclusively for the transmission of the one to the interconnected with him Receiver and the second giver to transmit the tens, to be used.

To read the signals that appear. facilitate, according to the invention, a special signal electromagnet is arranged for each signal, which makes the relevant signal appear when responding and via which a current flow only comes about through the cooperation of a particular relay from one and the other receiver. For example, a relay of tens receiver excited by the 'relevant donors, it connects a winding ends of all gahöri- to the same numeric _circle: gene signal magnets with one pole, one; Power source. The other winding ends'. remain free for the time being, so that none of these magnets will respond. Only when a relay of the single receiver is excited is the other end of the winding of the signal magnet carrying this single number connected to the other: pole of the power source and thereby: the relevant electromagnet is excited and the: signal is produced. .

One becomes expediently hundreds systems i by using two encoders and two! Apply receivers that should be sufficient for most purposes. For transmission j of these 100 signals are only two receivers with 10 relay groups each, so in total only 20 relay groups required. The entire signal transmission takes place via three lines.

Alber one .can also the process to continue, and ^1, for example, can be produced to the other receivers by the signal current paths magnets themselves.

FIGS. 1 to 3 show a system according to the invention for transmitting 100 different signals. 1 and ¹ 2 are two transmitters with 10 contacts each, 3 and 4 are two receivers with 10 relay groups each. ι is connected to 3, 2 to 4 by one line each. The return line is via earth. The operation of the receiver for the various current surges coming from the encoder is exactly the same as for the device according to the main patent. The relays o ', 1', 2 'etc. and o ", 1", 2 "etc. belonging to the various signal groups close the corresponding switches o', 1 'or o", i "etc. The small ones. Circles next to the mentioned relays denote the two control relays associated with each switching relay according to the device according to the main patent. The magnets o, 1, 2, 3 etc. to 99 are the signal electromagnets, which are connected in 10 rows of 10 next to each other. The one winding ends of 10 signal relays drawn next to each other in a row are all connected to a common line, which can be connected to one pole of a power source through the corresponding ■ relay of the receiver 3 via a switch 6 "at the encoder location. The other winding ends of 10 signal magnets lying one below the other are each connected to a common line, which can be connected to the other pole of the power source through the corresponding relay of the receiver 4. In the idle state, the contacts controlled by the relays of the receivers are all open.

In Fig. 2 the current flow is shown, which comes about when the signal 42 is set. By setting the switching arm of the transmitter 1 to the number 4, the relay group 4 'of the receiver 3 is excited and thereby the contact 4' is closed. In this way, the one winding ends ■ of this row of ten are all connected to one pole of the battery via the closed switch S , but without one of these magnets receiving current for the time being. If the contact arm of transmitter 2 is now placed on contact 2, for example, the corresponding other winding ends of the signal magnets controlled by this relay with the units number 2 are connected to the other pole of the battery via earth, as shown in Fig. 2. In this case, however, only the winding of the signal magnet 42 receives current, so that the signal 42 appears.

In the same way, of course, all other signal magnets can be passed through, corresponding no Positions of the contact arms on the encoders 1 and 2 are triggered.

The switch 6 ^{1 should} be kept open during the adjustment movements of the contact arms of the transmitter in order to prevent unwanted signals from appearing when the contact arms pass to the individual contacts, and is closed to the desired signal only after the setting has been made, iwodby. the current flow is established via the relevant signal magnet. The signal magnets can also have two

Windings are fitted, one through which, the corresponding relay of the receiver 3 and their others by the appropriate Relay d'es receiver · 4 can be connected to the poles of the power source! The current flow in such a device is shown in Fig. 3. The excitement the magnets 4 'and 2 "by adjusting the' Gaberann'e 1 and 2 is done exactly

ίο as in Fig. 2. When the contact 4 'is closed, the current is already closed via one winding of the signal series 4 to earth. The speed of the signal magnets is set in such a way that the excitation of only one winding makes the magnet respond. Only when a current is sent by Sohaltarm 2, for example via 2, which also brings the switch 2 "to the end, a current arises from the battery via the Current flows through and ^ excited, whereby the magnet gains the required force and the signal is actuated.

Claims (4)

Patent Claims: i. Circuit for the transmission of Signals according to patent 363340, characterized by the arrangement of several transmitters (1, 2) and several receivers (3, 4), each of which has a donor connected to a receiver in accordance with the main patent is, and · of which one 'giver (1) to transmit the One that is used by the other (2) to transmit the tens. 2. A circuit according to claim 1, characterized in that at the receiving point (3, 4) for each of the respective Encoder (1 or 2) signal to be transmitted (0 to 9Q) a special signal electromagnet each is arranged by the interaction of two, different receivers (3, 4) belonging relay (o 'to 9' and o "to 9") is excited. 3. Circuit according to claim 1 and 2, characterized in that one end of the winding of the signal electromagnet (o to 99) is controlled by a relay (o 'to 9') of one receiver (3), the other end of the winding through a relay · (o "to 9") of the other 'receiver (4) is connected to the poles of a power source, so that each relay is triggered (o 'to 9' and o "to 9") one of the two, recipients (3, 4) through the corresponding (Encoder (1, 2) a current run only via 'a certain signal electromagnet (o to 99) comes about. 4. Circuit according to · Claim 1 ibis 3, characterized in that the one Winding ends of the signal magnets belonging to the same number of tens (o, 10, 20 up to 90) 'together through a relay (o "to 9") of one receiver (4), the other winding ends of the signal magnets belonging to the same number (o, 1, 2 to 9) together by a relay (o 'to 9') of the other Receiver (3) is connected to the poles of a power source, so that when the decoder responds (4) and the unit encoder (3) the signal magnet located at the intersection of the two rows of signal magnets flowed through by electricity and through it; is triggered '. 3. Circuit according to claim. 1 Ibis 4, characterized by the arrangement of a switch (S) in the power supply line for the signal magnets (o Ms 99) for the purpose of preventing unwanted signals from appearing when the contact arm of the transmitter (1, 2) passes over the individual contacts · (O to 9) to prevent. For this purpose ι sheet of drawings