DE84000C - - Google Patents

Description

IMPERIAL

K PATENT OFFICE®

The present innovation in the mode of operation and equipment of the write telegraph described in patent specifications No. 69964 and 73520 relates to influencing the reversing mechanism of the receiver and aims to simplify it, so that instead of the previously necessary two reversing lines e only one is required and so only three long-distance lines are used.

The use of only one line e common to both sides of the reversing mechanism is made possible by the fact that the polarity change of the currents sent by the electromagnets X and X ¹ causing the reversing of the drive mechanisms is only carried out with respect to one of the latter by changing the polarity of the current coming in through e causes, on the other hand, that of the other by changing the strength of this current.

The modification required to carry out the modified working method the device is shown schematically in the accompanying drawings, of which Fig. Ι the transmitter, Fig. 2 illustrates the receiver.

As before, the two escapements 1, 1, which uniformly shape the movements of the received spring, are influenced by the long-distance lines b and c, through which the interrupter B and C convey current pulsations of alternating polarity in the escapement electromagnets respectively. H ¹ and H are sent.

The long-distance line b, which its current pulsations by means of the arm 52 of the

Interrupter B from the side of the

Battery Z Z ¹ coming line b ¹ , which receives line b ² coming from its + side and the switching springs 53, 54, takes its way, as before, over the writing pad 51, where a shunt is arranged via a resistor R, and the switching spring 50 after the receiver, where it goes to earth via the escapement electromagnet H ¹ and the relay P ^1.

In the same way, line c, supplied with current pulsations of alternately opposite polarity ^{by means of lines C 1} C ² , switching springs 53, 54, interrupter C and arm 56 from battery ZZ ^{1, runs} over writing pad 51, where a shunt is provided through a resistor R ¹ is, via switching spring 55 to the receiver, where it goes to earth via the escapement electromagnet Η and the relay P.

The functions of the shunts and relays P ¹ and P mentioned above are the same as in the paterites attracted.

The rerouting line e takes its way from the one between the end pieces of the

respectively from the and + side of the battery

ZZ ¹ over the switching springs 53, 54 guided lines e ¹ and e ' ² playing armature 59 des

Electromagnet 2V ¹ , via the switching arm 58 of the interrupter -B and the switching spring 57 to the receiver, where it is via the polarized relay that supplies the reversing electromagnet X with current / and further via the relay acting in the same way with respect to the reversing electromagnet X ¹ Morse relay L goes to earth. The electromagnet N ¹ receives current from the lines c ¹ and c ² through the switching arm 60 of the breaker C; it is connected to earth via a resistor R ³ , which is intended to regulate the power of the battery to the extent necessary for sensitive influence. In the transmitter, the line e is connected to a resistor i? ² , and the Morse code relay L of the receiver is set up in such a way that it only attracts its armature 64, which acts as a changeover switch, as a result of the current amplification.

If the sending spring A is now used for writing, the known effects occurring with respect to the parts connected to lines b and c , and if the spring is reversed with respect to the interrupter C , then the electromagnet N ¹ receives current from the opposite side by moving the arm 60 Polarity and changes its armature, so that line e now also receives current of opposite polarity from the battery ZZ ^x and sends it through the polarized relay J , which in turn changes its armature 62 to change the polarity of the current flowing through the reversing electromagnet X. changes and thereby reverses the direction of rotation of the drive shaft 3 of this side drive roller of the receiving spring. The reversing solenoid circuit. X runs in one direction from armature 62 through conductor j and electromagnet X to earth, in the other direction, depending on the polarity of the train coming through e , over one or the other of the two connecting pieces belonging to armature 62 and conductor j ¹ or j ' ² , of which j ^{1 leads} via the switching spring 61 to the negative end of the battery ZZ ¹ , / ² via the switching spring 62 to the positive end of said battery.

If, on the other hand, the sending spring A is reversed with respect to the breaker B , z. B. if their movement is changed from the direction of B away to -B to, as a result of the reversing direction of rotation of the interrupter, the arm 58 is rotated away from its connector and thereby .the line e is closed via the resistor R ² , so that now current of lesser strength through e into the receiver respectively. the relay L flows and this changes the polarity of the current flowing through the reversing electromagnet X ^{1, e.g.} B. from - in +. If the opposite change of direction takes place, the arm 58 lies against its end piece again, so that the line bypasses the resistor jR ² and now the current flows at full strength into the receiver or. the relay is sent and this is caused to change the polarity of the X ¹ exciting current from + to -. The relay L does not change the polarity directly, but through the intermediary of an electromagnet O in the following way:

The circuit of the reversing electromagnet X ¹ goes from earth via JST ¹ , conductor x \ armature 83 of the electromagnet O, its left-hand connector, conductor x ¹ , conductor j ¹ , switching spring 61 and positive side of the battery ZZ ^x to earth. The circuit of the electromagnet O goes from earth via armature 64 of the electromagnet L, conductor x ' ² β and the negative side of the battery ZZ ¹ to. Earth. If a current of increased strength now comes in through e , L is excited so strongly that it pulls its armature 64 against the stop on the right-hand side and thereby opens the circuit of the electromagnet O. This releases its armature 83, which is placed against the left-hand closing piece by the tapping spring, whereby positive current now flows from Z ¹ via j \ x ¹ , armature 83 and x ¹ into the reversing electromagnet X ¹ and the direction of rotation of the shaft 3 . reverses. If now, as a result of reversing the sending spring in the original direction with respect to the interrupter B, current of reduced strength occurs, the tapping spring of the armature 64 of the electromagnet L pulls that back against the left-hand stop, whereby the electromagnet O is switched on again, which is now pulled by the armature the circuit from X ¹ opens via x ¹ , but at the same time ^{closes via x 2} , so that negative current now flows from Z via β, x ' ² , .83 to X ¹ and this restores the original direction of rotation of shaft 3.

The electromagnet O is provided to bridge the gap which occurs as a result of the polarity change in the current through e. Since there is no current in the line e at the moment of this change, the armature 64 of the electromagnet L is left to its pick-up spring and could set in a wrong reversal; Now, however, the electromagnet O and the associated tapping spring are regulated in such a way that for the moment when the armature 64 gives way to its tapping spring when the polarity changes, the armature of O is on its respective connector and thus the current in X ^{L is} maintained until the polarity change is completed .

The following facilities are only hinted at because Fig. 2 illustrates the overall facility of the apparatus; however, they do not form one. - Part of this invention.
. The transmission of motion from the shaft 3 to the drive rollers of the receiving spring done, for example, described 83999 as described in Patent No.., By means of the electromagnets KK ^1, wherein the soft-iron plate 6 connected to the rotatable core of K z. B. is permanently -f- magnetized, in that K is arranged in a branch k of the line j ¹ which is connected to earth, while the switch disk 6 connected to the rotatable core of K ^{1 is} permanently magnetized, as a result of the arrangement of K ¹ in a junction k ¹ going to earth from x * resp. f ² . Furthermore, 23 means the device for rotating the shaft 3, which is also described in the patent specification. S and T are the electromagnets known from the indicated patents, influenced by the relays PP ¹ , for setting up and lifting the receiving spring, V is also of the said relay influenced electromagnet, which is responsible for the displacement of the paper by means of the switching mechanism 71 and 72, and which is also used here, by means of the arms 73 and endless cords 75, 76 provided with knots yj and 78, the receiving spring with each time paper displacement in the so-called. Move point of agreement.

Claims (3)

Patent claims: ι. Embodiment of the Gray's view method of written telegraphy, characterized in that the reversal of a the drive rollers of the receiving instrument instead of changing polarity is effected by changing the strength of the reversing current, for the purpose of executing the reversals by means of a single pipeline. 2. To carry out the method characterized in claim 1, the device that the two interrupters (B and C) of the transmitter send the reversing currents through a common long- distance line (e) , to which a resistor (R ") is provided around the one interrupter -. is arranged, and that in the receiver one of the relays (JJ ¹ J ) supplying the reversing electromagnets (XX ¹ ) with current is replaced by a Morse code relay (L) , and this relay and the remaining one polarized relay in the Line (s) are switched on. 3. In connection with the device marked under 2. the arrangement of an electromagnet (O ) dependent on the relay (L) in such a way that the same keeps the circuit of the reversing electromagnet dependent on L closed until the current has changed polarity. 1 sheet of drawings.