CH219313A - Teletype subscriber traffic, in particular for receiving the subscriber identification of subscribers involved in a telex connection and time information for the purpose of calculating charges in - Google Patents

Description

  

   <Desc / Clms Page number 1>
 Circuit arrangement with telex receiver, in particular for receiving the subscriber identification of subscribers involved in a telex connection and of time information for the purpose of calculating charges in telex subscriber traffic. It is known that in telex subscriber traffic, in particular in circuits with dialer mode, the namesake (subscriber identification) of subscribers involved in the connection can be used to determine the charges.

   In known arrangements, this is done in such a way that a teletype receiver is arranged within the switching circuit, preferably at the selection levels of the voting devices, which records the subscriber identification that is sent by the names of the subscribers. Here you can. the name givers can be located on the subscriber sets themselves, but they can also be located in the switching office, so that in the latter case the names are sent from one or more central locations.

   The duration of the connections, the charges for which are to be determined, is determined in the known circuits in that a date and time information consisting of pulse combinations is transmitted from a central time transmitter at the beginning of the connection and recorded by the telex receiver. At the end of the connection, this time transmitter is switched on again and transmits a time indication that corresponds to the end of the connection.



  The previously known circuits have the disadvantage that the teletype receiver, which records the information provided for calculating the charges, has to remain switched on for the entire duration of the connection, because after the connection is closed it gives the name of a subscriber, in particular

 <Desc / Clms Page number 2>

 special but must record the time information about the termination of the connection.



  According to the invention, a circuit arrangement with a telex receiver is used, in which a single receiving and translating device for pulse combinations is assigned a plurality of recording devices in the telex receiver.



  This circuit arrangement can be designed in such a way that the receiving and translating devices translate the impulse combinations of the subscriber identification and information consisting of impulse combinations about the time of the start of the connection and record it with the help of one of the recording devices, while the information about the duration of the connection on the same recording medium can be recorded by time stamps under the influence of a periodically operating time switch.



  The circuit arrangement according to the invention enables, for example, the following configurations of the subject matter of the invention: a) The telex receiver, e.g. B. a teleprinter can be designed so that a receiving and translation device and a movable type wheel are assigned several print strips. However, it can also be set up in such a way that a receiving and translating device and a type wheel is provided for each print strip, but optionally only the print hammer of a type wheel is operated. If only one type wheel is provided, it must be able to be brought up to the various print strips in the direction of its axis of rotation.

   This takes place in that, depending on the occupancy of the selector devices, the type wheel is moved along its axis of rotation to the occupied print strip by means of indexing means.



  b) Notwithstanding the exemplary embodiment dealt with below, punching devices can also be provided instead of the type wheel, so that various punched strips can be punched by a telex receiver. The pulse combinations themselves can also be printed on the printing strip, for example by means of dots, so that they can be scanned photoelectrically. For this purpose, the type wheel can have elevations on its circumference, which correspond to the current patterns of the pulse combinations.



  c) The toll telegraph does not need to remain switched on for the entire duration of the connection if it records the names of the subscribers involved in the connection after the connection has been established but before the telex traffic begins. After the subscriber identification has been recorded, the telegraph can be disconnected from the connection so that it is available for calculating the charges for other connections. If necessary, the telex receiver can also translate information about the time of the start of the connection, consisting of pulse combinations, which are sent in a manner known per se from a central time transmitter.

   It is also useful to record the subscriber IDs of both subscribers in order to determine the charges for long-distance traffic.



  d) 111-an can make the triggering of the name giver dependent on the connection setup and, for example, trigger the name giver of the called subscriber when he is assigned, while the name giver of the calling subscriber is triggered when the dial tone arrives. In the usual telex switching circuits, however, the name giver is triggered by a combination of impulses, the so-called "who there"? Combination. In order to adapt the calculation of charges for this facility, the "3Ver da?" Combination can therefore be given automatically after the connection has been set up.

   This can be done in a simpler way

 <Desc / Clms Page number 3>

 This can be achieved by using an automatic dialing pulse transmitter which, following the broadcasting of the dialing pulses, causes the name giver text and the #Wer da? "Combination to be sent. For further simplification, the #Wer there?" Combination can be placed on the name giver roller apply so that actuation of the key transmitter is not necessary.

   Since the #Wer da? "Combination is within the group of digits in the internationally established 5-current step alphabet, the toggle combination for the group of digits must be given for all of these facilities before the #Wer there?" Combination is sent out.



  e) If all subscriber devices were provided with the #Wer da? "combination, there would be constant mutual nudging by the namesake because the #Wer da?" combination follows the namesake text, e.g. B. is also returned to the called subscriber. The transmission of the #Who there? "Combination can therefore be suppressed if the name-taker is triggered remotely. This can be done, for example, by short-circuiting the sender contact when a circuit dependent on the rotation of the name-giving drum and the receiving relay is closed is.



  f) An expedient embodiment results when a telex transmitter is provided in the selector circuit which, depending on the connection setup, sends out the digit change combination and the #Wer da? "combination. For the operation of such a telex transmitter, hereinafter referred to as #Who there?" Transmitter is to be designated, it is useful to switch the forward and backward transmission directions switched through when the connection is set up, namely the a and b wires.



     g) The information about the duration of the connection can advantageously, if it is necessary for the determination of the charges, not be recorded by the telegraph, as in the previously known arrangements, but rather determined under the influence of a periodically operating time switch. Appropriately, for every minute or part thereof, the same recording medium, e.g. B. punched a paper strip, a hole.



  The circuit arrangement according to the invention can also be used advantageously for the purpose of calculating charges, for example when transmitting measured values. In some cases, instead of a curve registration of measured values that are transmitted remotely, a recording in digits is desired. Normal teleprinters are used for this purpose in a known manner. But if it is a question of the transmission of several measured quantities, e.g. B.

   Current, voltage and power, the circuit arrangement according to the invention can advantageously be used in such a way that the current values are recorded by a first recording device, the voltage values by a second and the power values by a third, with the single receiving and translating device being switched over to the recording device in question can take place as a function of the time or of transmitted pulses or the like.



  1 to 6 show an embodiment of the subject matter of the invention.



     1 shows the structure of a circuit arrangement schematically; In Fig. 2 it is indicated how the wires a and b of a telex connection are switched within the group selector GW during the process of reporting charges; Fig. 3 is a circuit diagram of a group selector with the charge printer; 4 to 6 show the mechanical structure of a toll telegraph.



  It is assumed that the subscriber TLl sets up a telex connection to the subscriber TL2 via the preselector VW1, the group selector GWl and the line selector LWI. He does this in well-known

 <Desc / Clms Page number 4>

 ter way by seizing the preselector by reversing the current direction in the subscriber loop. He then operates his dial and dials the connection point of the subscriber TL2 via the further dial levels. The dialing pulses run (Fig. 2, I) via the a-wire to the subscriber TL2. Subsequently, the subscriber TL2 (Fig. 2, II) gives the dial tone of the subscriber TL2 to TL1 and a counting initiation pulse.

   Depending on the incoming counting initiation pulse, the a-wire in the group selector is separated and the counter circuit GWZ of the group selector, which was already effective when the group selector was occupied, is looped into the b-wire of the connection (Fig. 2, III). The printing device DE1, which is assigned to the group selector GW1, is assigned at the same time as the preselector, and the teleprinter FS, which is assigned jointly to a plurality of group selectors, is assigned for the connection to be set up. By the teleprinter FS is now initially. from the #Wer da? "transmitter, depending on the establishment of the connection, via the connection switched according to FIG. 2, III, the #Wer da?" combination is sent over the b 'wire to the called subscriber.

   In addition to the #Who there? "Combination, the switching combination from letters to digits is expediently given, because the triggering of the name transmitter in the 5-current step alphabet is assigned to a pulse combination that is in the group of digits. These pulse combinations are received by the TL2 subscriber and the name transmitter triggered. The name transmitter text is sent back via the b-core and influences the machine of the calling subscriber TL1 in a known manner. However, it is also received at the group selector GW1 by the teletype receiver FS called the toll telegraph and printed out by the printer DE1.

   After receiving the name giver text sent by the called subscriber TL2, the connection is switched over according to Fig. 2, IV, and, this time via the b-wire to the calling subscriber, the impulse combination for the type group change from letters to numbers and the "- Ver da? "- combination sent out. At the calling subscriber, the teletypewriter translates the pulse combination, and the name giver text of the calling subscriber is sent over the a-wire, which is received at the called subscriber and according to FIG. 2, IV at the group dialer by the toll telegraph. The text is translated and DE- recorded on the printer.

   The printing devices DE are parts of the telex receiver FS.



  Following the naming of the calling subscriber, the connection is switched through at the group dialer so that the telex traffic can be started according to the diagram in FIG. 2, V. In the billing device, the billing telegraph FS is now placed on an automatic time transmitter ZS of a known design, which sends a date and time information consisting of pulse combinations. These pulse combinations are printed out by the toll telegraph and recorded with this. he is doing his billing job.

   The printed charge strip contains the identification of the calling and called subscriber as well as information on the date and time of the start of the connection.



  It now remains to record the duration of the connection. This can be done in such a way that when the connection is closed, the teleprinter comes into effect again and then translates the information from the automatic central transmitter again. However, the task can be simplified if the information on the duration of the connection is obtained directly from a timer. This timer gives, for example, at intervals of

 <Desc / Clms Page number 5>

 one minute, an electric shock causes a recording on the print strip. In the exemplary embodiment dealt with in detail below, the arrangement is such that a current pulse is given by a timer for every commenced minute, which punches a hole in the printing strip.

   After the connection is complete, the number of punched holes can therefore be used to determine the duration of the connection. This design of the device has the advantage that the toll telegraph only needs to be connected to the connection for a short time at the start of the connection to record the name giver texts and the date and time information. During the telex traffic of the two subscribers, the toll telegraph assigned to several group selectors and also the central transmitter are available for date and time information for counting other connections.



  Before the mode of operation of the circuit according to FIG. 3 is described, the mechanical structure of the teletype meter will be explained with reference to FIGS. 4 to 6. The movement of the type wheel shaft of a telex receiver known per se is transmitted to the shaft 2 via the coupling 1. On the shaft 2, a type wheel 3 is slidably mounted, which has printed characters on its circumference. This is connected to the shaft 2 by means of the screw 4 and the groove 5 (FIG. 5) in such a way that it can be displaced in the longitudinal direction of the shaft, but otherwise takes part in the rotation of the shaft 2. The type wheel 3 is freely rotatable on the extension 7 of a control arm 6 and is secured against displacement in the direction of its axis by a ring 8.

   The control arm 6 is connected to a rack 9 and is held in the rest position shown by a belt 10 which is pulled by a spring-controlled retraction roller 11. By means of an indexing pawl 12, which is controlled by the magnet TFM, the rack 9 can be indexed to the right. Each time it is advanced by one step, it is held in place by the locking spring 13. A spring 14 and a latching pawl 15 hold the rack in such a way that it remains in engagement with the pawl 12. With this transport device, the type wheel can be transported along the shaft 2 and can assume the positions given by the adjustment of the rack 9.



  If the type wheel is indexed in this way, it can print on a total of ten paper strips PST, of which only two, PStl and S, are shown. This is done by means of the pressure bar 16, which carries ten pressure hammers DH1 to DH10. The pressure bar is controlled by the pressure magnets DM1 and DM-22 after a pulse combination has been translated. It is guided in parallel on pins 23 and 24 against the action of springs 21 and 22, which are overcome during pressure by the force of magnets DM1 and DM2. The indexing of the print strip is done either via the indexing magnet SFM or the time stamping and indexing magnet ZFM.

   The first-mentioned magnet (FIG. 6) influences the progression of the strip over the rollers 17 and 18, when text is received by the teleprinter and at the end of the connection. The last-mentioned magnet 2Fi1 controls the progression when punching holes to determine the duration of the connection. At the same time, it influences the punch 20 via the lever 19. A shear magnet SchM (FIG. 4), which controls a shear knife 29, is provided to cut off the print strip after the charge recording has been completed.

   For the sake of clarity, this device is shown in the paper strip PSt5.



  For cooperation with the circuit according to FIG. 3, the switching arm 6 actuates with its lower end via plunger 26 respectively. 25 double changeover contacts pkl, pk2 resp. a simple contact s-yn; the contact also works together with the magnet 5111. The Ma-

 <Desc / Clms Page number 6>

 gnet TFM has a contact Ihn, which is included in the circuit of FIG.



  The switching operations for the assignment of a group selector will now be described. The wires a, b and c (Fig. 3) are connected to the preselector in a known manner, and the group selector is assigned via the c wire. When checking the preselector, the C-relay responds via the following path: earth in the VW and test relay in the VW (not shown), c-wire, C-winding I, head contact k1, contact l3, contact q3, selector arm dl, E-winding I, - WB. Relays C and E respond, and a holding circuit with winding EII is formed for relay E via contact e3. The relay F is switched on via contact e1: earth, contacts n5, e1, winding FI, - WB. The relay F forms a holding circuit with contact f l, and its winding II is connected to the b-wire via contact f 2.

   The A relay responds: Earth, resistance ra, contact f4, contact v4, windings All, AI, - WB. The A relay is connected as a test relay and short-circuits its winding II via its contact a2 so that another A relay, which is provided for other group selectors, cannot respond. The series connection of the f4 contacts on their quiescent side with the other contacts f4 serves to prevent two relays A from responding at the same time. The blocking magnet SM, which is assigned to the occupied print strip, is switched on via the contact a3: earth, contact f8, contact a3, blocking magnet 9M, - WB.

   The mechanical blocking of the contact sm is released by the armature of the magnet SM (FIG. 4) and the contact closes, since it cannot be influenced by the plunger 25 in any of the positions in which the type wheel is not located. The contact sm closes a circuit for the relay interrupter RU, which is assigned to several group selectors together, earth, contact sm, relay interrupter BU, magnet TFM, - WB. The magnet TFM is excited by the relay interrupter in short bursts and pushes the rack 9 as well as the control arm 6 and the guide rail 6a to the right by means of the pawl 12 (Fig. 4) until the type wheel is in front of the paper strip that is occupied Group selector is assigned.

   As soon as this paper strip is reached, the contact sm and thus the circuit for the relay interrupter via the magnet TFM is opened again via the plunger 25. The device remains idle until the end of the election, and the relay A prevents the type wheel from being requested by a new strip of paper to be assigned, namely until the end of the printing process. In the specified circuit, only one A relay can respond and therefore only one blocking magnet SM can be excited. (For triggering a second call, see page 12.) Since the a-wire is switched through via contact b5, the subscriber can start or dial out. continue. The dialing impulses that are given by the participant arrive as positive or negative impulses on the a-wire of the group voter.

   With each pulse, the N-relay of the group selector is activated in the following way: - TB by preselecting a-wire, shaft contact wll, contact n4, winding NI, + TB. The following + impulse, which corresponds to the closing of the dial impulse contact, causes the N relay to drop out again by short-circuiting it. Namely, both ends of winding I are at + TB.

   In order to avoid a drop-out delay, a high resistance NII is connected upstream via contact n3, which is dimensioned so that the N-relay just remains picked up, but drops out without delay in the event of a short circuit. The response and release of the N-relay creates a circuit for the lifting magnet HIT: earth, contact c2, shaft contact w12, contact n2, lifting magnet HIT, - WB. The head contacts K1 and K 2 are turned over. With everyone

 <Desc / Clms Page number 7>

 The current surge received by the solenoid HU raises the selector's arms by one step. The parallel winding III of the relay P also receives pulses.

   The P relay picks up, but remains picked up because the windings PI and PII are short-circuited by the contacts p1, cl, e2, so that the relay is given a drop-out delay. P only drops after the last pulse of the first pulse series. The rotary magnet DR then receives a current surge: earth, contact n1, contact p2, head contact k2, rotary magnet DR, - WB. When the rotary magnet DR is excited, the contact dr is closed and the relay N is excited again: + TB, winding NI, contact dr, -TB. Furthermore, the shaft contacts rll and rl2 are turned over. The contact n1 opens the circuit for the rotary magnet DR, which drops out and opens the contact dr again.

   After opening the contact dr, the relay N drops out again and closes the previously described circuit for the rotary magnet DR via the contact b1 again. The group selector checks the direction of rotation of the contact bank freely. This rotation takes place until the relay P responds when a free line to the next selection level is found, which leads to the second group selector or to the line selector, for example: Earth, contact e1, windings PII, PI, rotary arm of the group selector, c'-wire and to the next selection level via test relay to the battery. The contact p3 switches the a-wire and the contact p4 the b-wire through.

   The pulse relay N was already disconnected from the a-wire when the shaft contact wll was opened when the selector was turned. The participant can now bezw by pressing the dial further impulse series for setting the second group selector. of the line selector.



  After all dialers have been set, the current direction of the subscriber loop is reversed in the known manner at the called subscriber and the teletypewriter is started. In the event that the connection could be established as a result of all dialing levels and the called subscriber being free, the called subscriber receives a trenustrom pulse as a dial tone over the b-wire. After a short time the counting impulse follows, which consists of a short minus impulse. The minus pulse is so short that the teleprinter cannot be switched off again because the corresponding relay in the preselector does not respond to such short pulses.

   The returning dial tone starts the machine of the calling subscriber again and the current direction in winding II of the addressed F-relay is reversed by the counting initiation pulse. This is done via / the following circuit: b-wire from the called subscriber, contacts p4, t3, u1, o1, f22, winding FII, earth. This causes the relay F to drop out, since the magnetic effects of the windings FI and FII cancel each other out.

   The relay B responds: earth, reversed contact pkl (see also Fig. 4), contacts v9, f5, a4, relay B, - WB. The relay B can only respond when the type wheel has already taken the position that is assigned to the occupied paper strip PSt, because otherwise the contact pkl for relay B would be open. B switches on the motor of the teleprinter FS via contact b1: earth, contact b1, motor switch-on relay M, - WB. In addition, the "who there?" Transmitter is triggered by contact b3.

   This transmitter does not need to be designed as a complete keyboard transmitter, but it is sufficient if it can send out the pulse combination for changing digits and the "who there?" Combination. It can therefore be formed from a few cam disks, which are designed similarly to the cam disks of the name givers arranged in the teleprinting machines. It is necessary that the transmitter sends out this pulse combination with start-up and blocking steps and in the correct dimension.

   On the same shaft as the cam disks of the telex transmitter,

 <Desc / Clms Page number 8>

 there is a cam disk NGl, which controls the contact ngl. This cam contact ngl forms the circuit for triggering the #Wer da? "Transmitter: - W F B, contacts h2, i2, umoelegtei M 2D contact b3, tripping magnet NM, contract ngl, earth.



  In the meantime, when the B-relay responded, the a-wire was separated by the contact b5, which was previously only tapped according to the illustration according to FIG. 2, II. When the telex transmitter, which sends out the digit change combination and the #Wer da? "Combination, the text is given to the a wire through the contact sr of the transmission relay, not shown, via contacts t11 and b7, in the direction of the called subscriber about n '.



  During the sequence of the #Wer da? "Transmitter, the cam contact ng2 is closed so that the relay J can respond: Earth, contacts ng2, 12, t7, winding JI, - WB. Relay J creates a holding circuit: Earth, Contacts e6, iI, l6, winding JII, - WB. The contact i2 is opened, so that the circuit of the trigger magnet NM is interrupted and a second sequence of the #Who? "Transmitter is prevented.



  At the called subscriber, the. # Er da? "Combination triggers the name giver, and the latter sends one of the called station's characteristics, e.g. the name of the subscriber. This comes from b 'and on the one hand runs via contacts p4 , t3, ul, o1, b-wire, on to the calling subscriber and on the other hand via contacts p4, t3, t4, i3, ach, b4, relay ER to earth.



  The receiving relay ER of the teletype meter is thus influenced by the pulse combinations and controls the setting of the type wheel 3 (Fig. 4). After receiving a pulse combination, the translator of the teleprinter closes a circuit for the printing magnets DM1 and DM2, so that a letter is printed on one of the strips PSt1 to PSt10, depending on the position of the type wheel. The namesake text can be chosen so that a type group change is not required. For example, only those subscriber numbers that are in the same type group as the later time information can be transmitted. This allows the structure of the teletype machine to be simplified.

   However, if you want to keep the subscriber identification, which has been customary up to now, consisting of letters, the type wheel must also be able to be adjusted in the type group by the telex receiver. This is done expediently in such a way that, in contrast to the currently usual designs, all letters of the type wheel are attached in a row, with characters of the letter and number group alternating. There is then no need to adjust the type wheel in the longitudinal direction to change the type group. The type wheel is permanently colored by a coloring roller, and after each character has been printed, a circuit for the SFM incremental magnet is closed.

   For example, at the time of the blocking step, a contact tk is mechanically closed on the translator axis of the teleprinter, so that the following circuit is created: WB, contacts IL, pk2 switched, strip advancing magnet. SF-11, earth. The strip PSt is continued by one letter unit, specifically by the rollers 17 and 18.



  When the first character stream pulse of the name generator text arrives from the called subscriber, the relay R responds, since the relay F -as described above, had been brought down by counter-magnetization. The relay R is a delay relay that is maintained via contact f 7, even if separating current signals are received. Contact f 7 is necessary for this. the relay I? is not made to respond before F falls.

   The resistance between -TB and contact f 7 is dimensioned so that the re-

 <Desc / Clms Page number 9>

    lais R cannot be made to tighten via the circuit mentioned, but remains held after tightening once. Relay S is switched on via contact r1: earth, contacts v8, i4, r1, winding S, - WB. After the name-giving text of the called subscriber has been received, the relay R drops out again because the b-wire is permanently isolated and therefore + TB is also applied to the relay on the part of contact f 7. The relay T then responds, earth, contacts v8, r2, s2, winding T, - WB.

   The relay T with its contact t2 switches through the a-wire separated by the contact b5 and disconnects the b-wire with the contact t3, so that the sr of the #Who? "Transmitter on the b - Wire in the direction of the calling subscriber: TB, contacts sr, t1, ul, o1, b wire. Contact t6 opens and contact t7 flips over, so that relay J is de-energized and released.

   The contact i2 opens and again triggers the #Who there? "Transmitter via the release magnet NM, which expires and the pulse combination for the type group change and the #Who there?" Combination for the the calling party. Relay H responds via contact ng2, which is closed when the telex transmitter is running: earth, contacts ng2, b2, t7, winding HI, - WB. The relay H forms a holding circuit: earth, contacts e6, h1, u7, winding HII, - WB. The relay S drops out, which the contact i4 opened when the J relay dropped out before the H relay responded.



  At the calling subscriber, the name giver is triggered by the #Wer da? "Combination, and its text is sent to the teletype meter via the a-wire, contact t2, contact t4, contact ha3, contact b4, relay ER, earth Contact t2, further over the a-wire in direction a 'to the called subscriber and is recorded there. When the name giver text arrives at the charge printer, the relay R picks up again at the first character current pulse, and thus the relay S.

   Relay R holds itself during the entire incoming name giver text and only drops after its end because of the continuously arriving isolating current and then closes a circuit for relay U: earth, contacts v8, h5, r3, s3, winding U, - WB. The relay U is connected via contact u2 and switches the b-wire through with its contact ul for write traffic. Both wires are now switched through and the subscribers can start writing in the usual way. However, the counting does not start until the time and date information has been printed from the central transmitter, as described below. The time until then, which is around 3 to 4 seconds, is to be regarded as a waiting period within which the participants can terminate the connection, e.g. B. in the case of a faulty construction, can still trigger.



  The receiving relay ER and thus the teletype meter are now placed through the contact u6 to the contact zs of a central time transmitter in the time transmitter connection circuit ZSA. Such a time transmitter consists of a converter device which translates the times and possibly also dates into the pulse combination, stores and transmits them. Such central time transmitters are known in the art, e.g. By D. R. P. No. 603 860, so that they do not need to be rewritten. The time transmitter device is started by the relay An: earth, contacts v11, u, 4, relay An, - WB.

   The contact zs is then controlled in a known manner by the central time transmitter, so that the type wheel 3 is set according to the pulse combinations via the receiving relay ER and the television driver receiver. The date and time of the start of the connection are printed on the occupied print strip PSt. From the central transmitter ZS, the contact sle is actuated after the date and time reporting has ended.

 <Desc / Clms Page number 10>

 This can be done mechanically or by a relay that responds at the end of the time transmission.

   The relay V responds via winding VI: earth, contacts sk, u5, r12, winding VI. - WB. A holding circuit is formed via the weight TI of the relay V: Earth, contact e7, contact @ 13. Winding VII, - WB. The relay T must be adjusted so that contact r13 closes before contact z12 can open.



  After the relay V has responded, all processes in which the toll telegraph, the receiving relay ER, the translation device and the type wheel are involved are used to completion. The two namesake texts and the time of the beginning of the telex connection are recorded on the printing strip. At this moment, the type wheel can be released so that the toll telegraph and the #Who there? "Transmitter can be used to count another connection. Such a connection can be established via other group dialers, for example, and the charge is then made by a other pressure strip PSt determined.



  When relay V responds, the triggering magnet 1M for the teleprinter is operated via contact v10. Earth, contacts vl0, u3, winding AM. - WB. The magnet A, M (FIG. D) actuates the release rod 28 via a lever 27, which pivots the rack 9 against the action of the spring 14 out of the area of the release pawl 12 and the retaining spring 13. The latch 15 is raised against the action of its tension spring by the rack 9, and the rack is returned to the rest position under the action of the Mick-zugrolle 11, in which there is a tensioned spring.



  After the rest position has been reached and when the release magnet AM is switched off, the toothed rack is guided back into the area of the progression line 12 under the influence of the spring 14. The toll telex
 EMI10.13
 t, cr l @ e is now more in the starting position and can be rcgislated during the time in the connection considered in the ode. for counting a new lease :, uses -erden. In the case of the lxti-acliteten connection, the end of the @ 't @ rliindun-duration has started: After contact r1 of relay I ", a circuit for relay TV is closed: earth, selector arm d3, contacts cl, e3, ReIsis IIr. - Il'B.

   The relay I 'is adjusted in this way. Let the contact el close before contact v3 so that the rotary magnet D of the selector is not reached before the relay TI 'has responded. The relay 117 changes its tinselialtekontakt ii, l, so that the capacitor C'1 is released via the following circuit: earth. Capacitor Cl, contacts c15. @cL Magnet Ml, Eide. The charge of the liondensator was previously from - WB via a resistance. Contacts rt, l, q5, capacitor Cl. Earth. The Zeitstanzund Fortselialtniagnet ZFJI switches the paper strip PS in the manner shown in FIG .

   When relay 1 "responds, a circuit for the continuation of rotary selector N is now closed via contact c3, as mentioned above. This circuit runs via contact 11I", which closes all 1 (1 ") in the manner that time zone counters empty : Eide. L1) "- Contact. Relay 7. (j @ 'ichlung 1I), contact c3, contact x1. Magnet D. - IVP. The moment the arm d? des 1) ieliw; ilili, if the sixth step is over, the relay TI "again receives a current surge through the circuit described above, and the contact rel connects the capacitor C1, which has meanwhile been charged again, to the time stamping and continuation control ZFJI. In A hole is therefore punched in the paper strip PSt and the indexing is not activated.

   The rotary selector can make eleven steps in a known manner and is located

 <Desc / Clms Page number 11>

 therefore, after a further six steps, that is, after a further minute, go back to the first step, so that another punching process is triggered via the relay W. The number of punched holes can later easily be used to determine the duration of the connection.



  The relay Z is the normal counting relay of the time zone counter. A normal count can therefore take place in addition to the count by the charge printer.



  If the message transmission is finished, the participants release the connection in a known manner by pressing the end button. If this is triggered by the calling subscriber, after the c-wire in the preselector has been disconnected, relay C of the group selector is de-energized and relay E drops out, since contact e3 is opened. This opens the contact e3, so that further counting is definitely prevented because the relay W can no longer receive current surges. The rotary selector D runs back to the zero position: earth, selector arm d4, normally closed contact e4, contact x1, incremental solenoid D, - WB. Each time the switching magnet is activated, a circuit for relay X is closed via contact d. Relay X picks up and contact x1 interrupts the switching circuit for magnet D.

   This is advanced by this interrupter circuit until the zero position is reached.



  Before the drop-out delayed relay V is switched off via contact e7, relay L responds: earth, still closed contact v2, closed contact e2, relay L, - WB. When the selector has reached its zero position, a circuit for relay Q is formed via contact l2: earth, selector arm d3, contact 12, relay Q, - 1VB. The rotary magnet of the selector receives an additional current impulse via contact q4: earth, contacts d4, q4, x1, magnet D, - WB. In the manner described, the selector D begins another cycle with the aid of the relay X However, winding II of relay X was short-circuited via contact q8, so that relay X drops out with a delay and the selector therefore rotates more slowly. The relay Q, which has a dropout delay, is held via contact q1 during these turning processes.

   At each step, the capacitor C1 discharges via the contact x3 and via the strip advancing magnet SFM (Fig. 4 to 6), which only caused the transport of the strip, but no punching process: earth, capacitor Cl, contacts q5, x3, q6, pk2, magnet SFM, earth. The magnet SFM continues to transport the strip until all of the print and punch records of the strip have been moved past the shear blade 29. On one of the last steps of the selector, a circuit is created for the shear magnet SchM: earth, selector arm d3, contact q2, shear magnet SchM, - WB.

   The shear magnet (Fig. 4) operates with its armature via the levers 30 and 31 against the action of the spring 32, the shear blade 29, which cuts off the strip that falls into a collecting container.



  In the meantime, the selector continues to run in the zero position, in which the charge printing device can be reassigned via the c-core. The contacts 13 and q3 prevent the relay E from responding when the selector D passes through the rest position for the first time after the punching process has ended. The further release of the connection depends on the relays Y, L, E, whose contacts are switched when they drop out. The test wire c 'of the group selector is interrupted by opening the contact cl, so that the relay P drops out.

   This creates a new circuit for the rotary magnet DR: earth, contact n1, contact p2, head contact k, rotary magnet DR, - WB. The rotary magnet is placed in an incremental circuit until the selector checks for the eleventh step and thereby automatically remains in the rest position (opening of the head contact k2).



  Since the device described has a teletype receiver and a type wheel

 <Desc / Clms Page number 12>

 has to serve ten charge strips, it can happen that several charge strips are occupied by the associated group selectors at the same time or so quickly one after the other that the type wheel has not yet finished printing on one strip, while it should be occupied on another strip. For this case, circuits are provided which cause the transmission of a busy signal and thus the release of the connection, since the subscriber would otherwise write free of charge. After the counting initiation pulse has been received, relay 0 responds if the plunger 26 has not opened contact pk1: earth, rest side of contact pkl, contact y1, contact e7, contact f3, contact e5, relay 0, - WB.

   In this case, liver contact o1 is connected to the b-wire in the direction of the calling subscriber, so that the connection collapses.



  The contact y1 and the relay F are provided so that in the time between the response of the relay E and the dropping out of the relay F during the occupancy process, no negative pulse is sent to the b-wire. The relay F is namely continuously excited after the dropout of F via the contact f 6, so that the circuit of the relay 0 is interrupted at this time.

 

Claims (1)

PATENT CLAIM: Circuit arrangement with teletype receiver, in particular for receiving the subscriber identification (name giver texts) from subscribers involved in telex connection and time information for the purpose of calculating charges in television subscribers, characterized in that several recording devices are assigned to a single receiving and translation device for the pulse combinations in the telex receiver. SUBSTANTIAL CLAIMS 1. Circuit arrangement according to claim, characterized in that the recording devices can be made effective as desired. 2. Circuit arrangement according to the dependent claim. 1, characterized in that the type wheel of the toll telegraph is assigned to several print strips in common and that it has printed characters. 3. Circuit arrangement according to dependent claim 2, characterized in that the type wheel is non-positively driven in the direction of rotation and is displaceable in the direction of its axis of rotation. 4. Circuit arrangement according to dependent claim 3, characterized in that the various printing strips with their guides and transport devices are arranged in such a way that the transport direction of the printing strips is perpendicular to the direction of the axis of rotation of the type wheel. 5. Circuit arrangement according to dependent claim 2, characterized in that a common print hammer is provided for the different print strips, which can press the recording strip against the type wheel. 6th Circuit arrangement according to dependent claim 1, characterized in that the pulse combinations are applied to the circumference of the type wheel as adjacent dots, so that the pulse combinations printed on the recording strips can be scanned photoelectrically. 7. Circuit arrangement according to claim, characterized in that the telex receiver is designed as a punched tape receiver. with a single receiving and translating device and with a punching device that is optionally effective for different punching strips. B. Circuit arrangement according to claim, characterized in that i on the recording media of the recording devices apart from the recordings which are controlled by a receiving magnet and the translation device for pulse combinations <Desc / Clms Page number 13> With the help of an additional magnet for single impulses, recordings can be initiated that are independent of the first-mentioned recordings. 9. Circuit arrangement according to claim, characterized in that the receiving and translating devices translate the impulse combinations of the subscriber identification and information consisting of impulse combinations about the time of the start of the connection and record them with the help of one of the recording devices, while the information about the duration of the connection on the same recording medium can be recorded by time stamps under the influence of a periodically operating time switch. 10. Circuit arrangement according to dependent claim 9, characterized in that the adjustment of the type wheel in the axial direction in relation to the print positions of the individual print strips is controlled by switching means which become effective depending on the connection setup. 11. Circuit arrangement according to dependent claim 10, characterized in that the transport and guide devices for a printing strip are each assigned to a single voter (GW) of an election level. 12. Circuit arrangement according to dependent claim 11, characterized in that the transport and guide devices of the associated print strip are assigned following the assignment of the option level. 13th Circuit arrangement according to dependent claim 12, characterized in that when a guide and transport device is occupied, the type wheel common to all recording devices is moved in the direction of its axis of rotation into the printing position of the occupied print strip. 14. Circuit arrangement according to dependent claim 13, characterized in that an indexing magnet (TFM) moves the type wheel via a rack (9) in the direction of its axis of rotation until the circuit of the indexing magnet is continuously opened by a mechanical contact. 15. Circuit arrangement according to dependent claim 14, characterized in that when the connection is triggered, the rack (9) is brought out of engagement with the indexing pawl (12) of the rack by a release magnet (AM). 16. Circuit arrangement according to dependent claim 9, characterized in that the print strip is advanced by a magnet (SFM) during the blocking steps when recording the name-giving data and the information from the central timer; which is controlled from the teletype by a contact (tk). 17. Circuit arrangement according to dependent claim 9, characterized in that the print strip is advanced by a magnet (UM) when recording the time stamps for the duration of the connection, which magnet simultaneously causes the time stamps to be recorded. 18th Circuit arrangement according to dependent claim 17, characterized in that after the connection has been released, the printing strip is advanced by the switching magnet (SFM) controlled by an interrupter combination (D, X, Cl), which also carries out the switching when the information from the central timer is recorded controls. 19. Circuit arrangement according to dependent claim 18, characterized in that the switching lasts at least until the printing strip has passed a cutting device (Schur, 29). 20th Circuit arrangement according to dependent claim 9, characterized in that after the connection has been set up, the names of the two subscribers participating in the connection are transmitted one after the other and recorded by the telex receiver. <Desc / Clms Page number 14> 21. Circuit arrangement according to claim 20, characterized in that, following the recording of the name giver texts, the printing of a time indication sent by a central time transmitter is controlled by the teletype receiver. 22nd Circuit arrangement according to dependent claim 20, characterized in that the subscriber calling home, after the connection has been set up, triggers the name extension and is then given to the #Wer da? "Combination, which triggers the name giver of the called subscriber. 23. Circuit arrangement according to dependent claim 22, characterized in that there is an automatic dialing pulse transmitter in the subscriber station which, following the broadcasting of the dialing pulses, causes this station to automatically send out the name giver text and the #Who there? "combination. 24. Circuit arrangement according to dependent claim 22, characterized in that the name giver roller of the subscriber devices contains, in addition to the name giver text, the type group change combination and the #Who there? "Combination. 25. Circuit arrangement according to dependent claim 24, characterized in that the transmission of the #Who there?" Combination by the name giver roller takes place when the name giver is triggered locally, while when triggered remotely, the transmission of the #Wer there? "Combination is suppressed the naming roller is prevented after the name has been sent out. 27. Circuit arrangement according to dependent claim 25, characterized in that the transmission of the #Wer there? "Combination is suppressed by short-circuiting the transmitter contact. 28. Circuit arrangement according to dependent claim 25, characterized in that the suppression occurs when one of the rotation of the Name generator roller and the receiving relay controlled circuit is closed. 29. Circuit arrangement according to dependent claim 9, characterized in that a teletype transmitter is provided in the selector circuit, which sends out the digit change combination and the #Who there? "Combination depending on the connection setup and the readiness to receive the charge pusher . 30th Circuit arrangement according to dependent claim 29, characterized in that the two pulse combinations are transmitted via a wire (a ') running to the called subscriber, while the associated wire (a) coming from the calling subscriber is disconnected. 31. Circuit arrangement according to dependent claim 29, characterized in that after receipt of the identifier of the called subscriber at the teletype meter, the transmission device is switched over so that the transmission wire (b) of the identifier is disconnected and the a wire is switched through. 32. Circuit arrangement according to subclaims 30 and 31, characterized in that after the transmission unit has been switched over, the digit change combination and the "who there?" Combination are transmitted via a wire (b) leading to the calling subscriber, and then the identifier of the calling subscriber is received via the switched a.-wire from the teletype meter and the called subscriber. Circuit arrangement according to dependent claim 30, characterized in that after the end of the dialing at the teletype meter, the a-wire is disconnected as a function of a counting initiation pulse arriving via the b-wire. 34. Circuit arrangement according to dependent claim 33, characterized in that when the connection is automatically established <Desc / Clms Page number 15> a relay (F) is excited via a winding (I) which, when the counting initiation pulse arrives, is caused to drop out by counter magnetization by the other winding (II) and which controls the separation of the a-wire. 35. Circuit arrangement according to dependent claim 34, characterized in that the relay (F) controls a further relay (B) which can only respond when the teleprinter is ready to receive, the contacts of this relay (B) interrupting the a-wire and the " Who is there? "- Trigger the transmitter. 36. Circuit arrangement according to dependent claim 31, characterized in that when the first character current pulse of the identifier of the called subscriber arrives, a delayed relay (R) responds, which remains during the name generator text received by the called subscriber, but after its termination due to the continuously incoming isolating current drops and thereby the interruption of the b-wire and the connection of the a-wire as well as the retriggering of the "Who there?" transmitter controls.