DE914745C - Circuit arrangement for telecommunication systems, in particular telephone systems with dialer operation - Google Patents

Description

Circuit arrangement for telecommunication systems, in particular telephone systems with selector operation Addendum to patent 908 988 The main patent has a circuit arrangement for telecommunications systems, in particular telephone systems with dialer operation, the subject matter, in the establishment of connection paths, for which as a result of which occurred in the system Errors or no monitoring circuits are established as a result of incorrect selection, via an additional wiring of the selection devices control circuits in one otherwise take effect in the monitoring manner. According to the claim 4 of the main patent will be used to record fees, according to the temporal Occurrence of the voltage surges that can be influenced to record charges in the event of errors occurring through the control circuit in a special switch position held and, if necessary, triggers the established connection path. The subject of the additional invention is a further development of the circuit arrangement in accordance with claim 4 of the main patent. According to the additional invention, the release prevented, if a connection to a participant is established by from Report this subscriber dependent switching devices in a special switching position of the switching mechanism instead of a switching means causing the triggering Alarm device will take effect without hindering the connection that has been established permit.

In Figs. I and 2, an embodiment for explaining the invention is shown, namely the Fig. I shows a schematic representation of a z. E. Accessible by a calling subscriber connection line VZ with a transfer dialer UW used to establish the desired connection and a switch-on selector A TV assigned to this connection line, via which a free zoning device having the features of the invention is made available when a connection is established for billing.

Fig. 2 shows one of these zoners, e.g. B. VZ "in more detail Depiction. The pulse generator required for this and shared by several zoners PG is shown schematically in FIG.

Achieved z. B. a calling subscriber, not shown, the connection line VZ of Fig._i, the reversing selector UV (switching arms i ... 5) is initially set so that his Schaltann i reaches a free line which leads to a lobster current surge receiver, not shown. In addition, in a manner that is not of interest here, a switch-on selector AW is looking for a free zoner, e.g. B. the zoning shown in Fig. 2 VZ ,. In the rest position of the zoner VZ, the relay R is excited via: -, winding I of the relay R, head contact i k1 of the "selector TV" contact 2 d2 of the rotating magnet Dw, of the selector W2, head contact 3k2 of the selector TV " contact 4. a, winding II of relay Y, contacts 5c, 6st, 7zo, 8p, gal; Earth. Relay Y does not respond in this circuit. A common pulse generator PG is provided for several or all zoners. This consists, for example, of a motor-driven shaft on which a number of cam disks are attached for making contact. Through this contact, voltage pulses are given from the voltage source Sp in a certain rhythm. The contact of the individual cam disks is shown schematically in FIG. 2 by the progressive movement of a contact bridge B1 and a contact bridge B2. During one revolution of the pulse generator PG z. B. moves the bridge Bl so that one after the other a voltage pulse Ps (synchronization pulse), a voltage pulse P f (incremental pulse) and successively voltage pulses Pnl, Pn2, Pn3 (dubbing pulses of the near zone NZ), a voltage pulse Pf (incremental pulse), one after the other voltage pulses PI " PI "PI, (sounding pulses of the far zone FZI), a pulse P f (stepping pulse) and successively voltage pulses PIIl, PII2, PII3 (zone pulses of the far zone FZII), a voltage pulse P f (stepping pulse) and successively voltage pulses P IIII, P III2, P III3 (dubbing pulses of the far zone FZIII), a voltage pulse P f (incremental pulse) üsw. and finally a voltage pulse P f (incremental pulse) and at the end a pulse as a non-zoning pulse (pseudo-zone NYZ). Every time the bridge B, voltage pulses, e.g. B. PnL ... Pn3, Ph ... P13, P Ih. . . P II3 etc., as sounding pulses of the different zones can be effective, the bridge Bz makes voltage pulses P1, P2 and P, (main office pulses) effective in a corresponding rhythm, so that the bridge B2 during one cycle of the pulse generator PG several times the voltage pulses P1 . .. P3 can occur. Between the voltage pulses P2 and P3, a voltage pulse Pus (reversing pulse) is always effective.

If the zoner VZ ", as already mentioned, is occupied by the switch-on selector AW (Fig. I), then, since the contact bel is closed, the relay C is energized via: -, Wil, contact ior; winding I of relay C , Wire i, switching arm a of the switch-on selector AW, contact bel, earth. By closing contact iic, a holding circuit is closed for winding I of relay C. As long as head contact i2kl of selector TV is closed, relay C is short-circuited Its winding II is delayed. The relay R holds itself after opening the contact 5 c via its winding II and the contacts 25 x and 26 c. Since the counter switch Z is in the rest position and its rotary magnet Dz is not energized, the relay is energized Y via: -, winding I of the relay Y, wire 5, switching arm b of the switch-on selector AW, contact dz, earth.

If the calling subscriber first selects the identifier 53 for the desired connection establishment by sending out two series of impulses, then, since the contact is initially actuated five times in some way, the winding 1 of the relay A is excited five times via: -, winding I of the relay A. ; Contact 4a äl, -Ader 2, switch arm d of the switch-on selector AW, contact nsi, earth. During this series of impulses, the winding I of the relay V is excited via: -, winding I of the relay V, contacts 13a, 14c, earth. The relay V is delayed by a short circuit of its winding II via contact 15 v. According to the series of current impulses consisting of five current impulses, the lifting magnet Hwl of the selector TV is influenced by: -, Hwl, contacts ihr, i7ii, 18a, igc, 6st, 7s0, 8A gal, earth. The switching arms awl :. . ewl and the decade contact dkwl are being lifted into the fifth decade. Will be after. At the end of the impulse series, relays A and V are de-energized again and, as a result, contacts 2o a and 2i v are closed, relay US is excited via: -, winding I of relay US, contacts 2o a, aiv, decade contact dkwl on contact 5, earth . The relay US places itself with its winding II via the contacts 22us and 23c in a holding circuit. By closing the contact 24zis, an indicator for reversing the Umsteuerw ählers UTn 'is given on the wire 3 to the desired direction. Since the selector W shown in FIG. B. is adjusted by one step with each series of impulses, a circuit for the relay U1 is now established via: -, U1, selector W in position i, switching arm c of the switch-on selector A W, wire 3, contact 2 ¢ -us, earth. By moving the contact u1, the switching arm i of the reversing selector UW is switched off and the switching arm 2 is switched on. The reversing selector UW is now looking for a free line with a downstream number surge receiver via this switching arm. The relay R (FIG. 2) is de-excited by short-circuiting its winding II after the contact 27v at the end of the series of impulses and after the head contact 28k1 is closed. The change of direction takes place via the decade contact dkwl of the selector N'1; the selector Wz later also serves to determine the zone using its switching arm bwl.

The next series of current impulses consisting of three current impulses influences the rotary magnet Dwl of the selector WI via: -, Dwl, contacts 29r, i7ic, i8a, igc, 6st, 7z0, 8p, gal, earth at the same time as the number current impulse receiver of the connection path. The relay V is energized again and held during the series of impulses. The switching arms awl ... cwl of selector W1 reach contact 3 in the fifth decade. If, after this series of impulses, relay V is de-energized again after relay A is de-energized, relays E and U respond via: -, Wi3, shaft contact 30w2 of selector W2, winding l of relay U, relay E, contact 31P, shaft contact 32w1 of selector W1, contact 33v, head contact 34k2 of selector W2, contacts 35x, 36st, 37c, earth. After closing contact 39e, relay St is excited via: -, Wii, contact 38s, windings 1I and 1 of relay St, contacts 39e, switching arm bwl- of selector W1 on contact 3 in decade 5, earth. After the contact ioo st is closed, the windings 1 and II of the relay St are placed in a holding circuit via: -, Wil, windings II and I of the relay St, contacts ioo st, 96c, earth. Since the relay Y, as already mentioned, is excited via its winding 1 and the contact dz of the rotary magnet Dz of the counter switch Z (FIG. I), heating of the thermal relay Th begins after the contact 49st is closed; this does not yet initiate a switching process. By opening the contact 36 st, the relays E and U are de-energized. By opening the contact 6st, further influencing of the selectors W1 and W2 is prevented during the further current impulse transmission to complete the desired connection. By closing the contact 4ost, excitation of the relay S via its winding I is prepared. This excitation takes place as soon as the pulse generator PG allows the voltage pulse Ps (synchronization pulse) to become effective at the beginning of a new cycle. Once energized, relay S holds itself through its winding II and contacts 42S and 14c. By closing the contact 43st the grid G1 of the discharge tube Rö is connected to the switching arm ewl and by closing the contact 44s the grid G2 of the discharge tube Rd is connected to the line leading to the voltage pulse Pnl. After opening the contact 38s, the relay St (windings 1 and II) is held in the charging circuit of the capacitor Kot for a while. The grids G1 and G2 of the discharge tube Rö are biased by a corresponding selection of the voltage -Ug so that the discharge tube Rö becomes permeable when voltage pulses occur simultaneously at the grids G1 and G2.

If, after the transmission of the voltage pulse Ps, the bridge B1 first moves into such a position that the voltage pulse P f (incremental pulse) becomes effective, the relay ZO is excited because the contacts 45st, 46p and 47s are closed. By temporarily closing the contact 51 zo, the rotary magnet Dz of the counter switch Z is excited via the wire 4 and the switching arm e of the AnschaltwäHers AW, so that the counter switch Z performs a step. By opening the contact dz , the relay Y is temporarily de-energized and the thermal relay Th is temporarily switched off. In addition, the winding III of the relay St (contacts 49 st and 48y) is influenced during this time, see above. that the relay St, the winding I of which is short-circuited via the contact 113s for delay, is held during the sequence of incremental pulses Pf, provided that the counter switch Z is working. If during the further rotation of the pulse generator PG the bridge Bi is in such a position that the voltage surge Pnl (near zone 1V7.) Becomes effective, this voltage pulse Pnl reaches the grids G1 and G2 of the discharge tube Rö at the same time. The discharge tube Rö ignites, so that the relay P responds in the anode circuit via the discharge tube Rö, winding I of the relay P, contacts 54s, 55at, 26c, earth. By closing the contact 58p, the relay P places itself with its winding 1I in a holding circuit via: -, winding II of the relay P, contacts 56 u, 57e, 58A, 55 al, 26c, earth. When the contact 58p is actuated, the anode circuit of the discharge tube Rö is opened, so that the discharge tube Rö is extinguished and the winding 1 of the relay F 'is switched off. By opening the contact 8p, further influencing of the rotary magnet Dz of the counter switch Z via the wire 4 is prevented. Relay Y is again excited via contact dz. Since the relay St (contact 48 y open) is now de-energized, there is no further heating of the thermal relay Th because the contact 49st is open. B. over the counting wire z, since the contacts of the counter switch Z (switching arm a) are wired according to the fee charged for the individual connections zll in some way not of interest here with a counter current impulse transmitter ZS, so that according to this wiring and the position of the counter switch 7_ (Arm a) Counting current surges are given via the counting wire z to influence the counter of the calling subscriber.

At the end of the conversation, the Zoner VZ is released, since the holding circuit for the winding I of the relay C is interrupted via the wire i on the contact bel. The relay Y is de-energized by switching off its winding I. By opening the c-contacts, the relays of the zoner VZ, which have been energized up to now, are switched off. By closing contact 5c, the rotary magnet Dwl of the selector W1 is excited in series with the winding II of the relay Y via: -, Dwl, head contact 64k1 of the selector W1, contact 2d2 of the rotary magnet Dw2, head contact 3k2 of the selector W2, contact 4a, Winding II of relay Y, contacts gc, 6 st, 7 zo, 8p, 9 al, earth. By closing the contact 6o y, since the contact 61 c is closed, the relay A is excited via its winding II. The contact 4a interrupts the excitation of the rotary magnet Dwl of the selector W1 and the relay Y, so that the winding II of the relay A is de-energized again when the contact 6o y is opened: The turning game repeats itself until the selector W is in the rest position , the head contact 64k, is opened. Then, after closing the contact zkl, the winding I of the relay R is influenced, so that the relay R is energized again in the rest position of the zoning device VZ.

If the calling subscriber selects the corresponding identifier 279 to set up another connection, then simultaneously with the number surge receivers that can be reached one after the other via the switching arm r of the reversing selector UW, the switching arms of the selector W1 are switched to the second by the series of two current surges according to the explanation already given This decade is set to contact 7 by the series of current impulses consisting of seven impulses. After the relay V is de-energized, the relays E and U respond again. The relays US and St are not yet energized, because neither the decade contact dkwl nor the switching arm bwl creates an excitation circuit. By the third further series of current impulses consisting of nine current impulses, the switching arms of the selector W2 and the decade contact dkw2 of the selector W2 are raised to the ninth decade. The solenoid Hw2 of the selector W2 is namely excited via: -, Hw2, 65e, 66u, 18a, zg c, 6 st, 7 zo, 8p, g al, earth. After this influencing of the lifting magnet Hw2, the switching arms aw2 ... cw2 of the selector W2 are before the ninth decade and the decade contact dkw2 is on contact g. If the voltage pulse Pus comes into effect during the rotation of the pulse generator PG , it reaches the grids G1 and G2 of the discharge tube Rö, namely to the grid G1 via the switching arm awl, which is on the contact 7 in the second decade, the contacts 70 V, 71 a, 72us, 73e, shaft contact 74w2 of the selector W2, contacts 75st and 52A as well as to the grid G2 via the decade contact dkw, on contact g and the contacts 76s53q. This makes the discharge tube Rö permeable, so that the relay P in the anode circuit responds via: discharge tube Rö, winding I of relay P, contacts 115 x, 77 us, 8o s, 55 al, 26 c, earth. After closing contact 58p, relay US is excited via: -, winding II of the relay. US, contacts 8fe, 58A, 55al, 26c, earth. By closing the contact 22us, the relay US places itself with its winding II in a hold circuit. By closing the contact 24us, the relay U3 for reversing the reversing selector UW is given in the marked direction via wire 3. After the third series of impulses has been emitted, the selector W is on the contact 3. By moving the contact zi, a free line through the switching arm 4 is now sought. The change of direction takes place with the participation of the zone detection selectors W1 (switching arm awl) and W2 (decade contact dkw2). The discharge tube Rö, which is also used for the subsequent zone determination, plays a role here. Now the relay E and the winding I of the relay U are switched off, which were initially influenced during the series of current impulses consisting of nine current impulses -, Wi3, shaft contact 3ow2, winding 1 of relay U, relay E, contacts 67 e, 68 v, 35 x, 36 st, 37 c, earth, and after the end of the series of current impulses for some time in the charging circuit of the capacitor Kol via the resistor Wi, were further influenced. The capacitor Kol is in the meantime charged. The relay U continues with its winding II over: -, winding II of the relay U, contacts 69u, 36st, 37c, earth. The discharge tube Rö has meanwhile been extinguished when the contact 58p is actuated and the relay P has been switched off at the same time. After the contact 82e closes due to de-energization of the relay E, the voltage pulse P1 effective during the rotation of the pulse generator PG comes via the switching arm cwl of the selector W1, which is on the contact 7 in the second decade, the contact 82e, shaft contact 74w2 of the selector W2 and the contacts 75 st, 52p to the grid G1 of the discharge tube Rö and at the same time to the grid G2 via the decade contact dkw, the selector W2 and the contacts 76s and 53q, which is on contact g. The discharge tube Ro ignites again, so that the relay P responds again via its winding I. After the contact 86p is closed, the relay X is excited via: -, relay X, 83 q, 84u, 85 e, 86p, 87 al, 88c, earth. The relay X is held by its contact 81 x. By opening the contact 115X the discharge tube Rö is extinguished and the relay P de-energized. As a result, the rotary magnet Dw, of the selector W2 receives a current surge via: -, Dw2, winding III of the relay U, 8ge, 66u, gox, zgc, 6st, 7zo, 8p, gal, earth. Since the shaft contact 92w2 is closed after the switching arms of the selector W2 have been screwed in, the relay Q is excited via: -, Wi3, shaft contact 92w2, relay Q, contact 88c, earth. In addition, after the contacts 95q and ggq have closed, the relay St responds via: -, Wi4, contact 38s, windings II and I of the relay St, contacts 9g q, 97 x, 95q, 96c, earth. By actuating the contact 93q , the winding II of the relay U is switched off and the relay U is de-excited. After the contact 4ost is closed, the relay S is excited via its winding I when the voltage pulse Ps (synchronization pulse) becomes effective at the beginning of a cycle of the pulse generator PG. The relay S remains after the contact 42s is closed via its winding II, while the relay St is initially held in the charging circuit of the capacitor Kot for a while. During the further rotation of the pulse generator PG , the voltage pulse P f (incremental pulse) is effective twice to excite the relay ZO, so that by closing the contact 5zzo twice, the rotary magnet Dz of the counter switch Z is moved forward by two steps. The relay V is switched off twice by opening the contact dz , i.e. the heating of the thermal relay Th is interrupted twice. The relay St is held intermittently via its winding III (contacts 49 st and 48y). Then during the further rotation of the pulse generator PG the voltage pulse P, via the switching arm cwl standing on the contact 7 in the decade 2, the contacts 43st and 52P on the grid G1 effective and at the same time also influences the voltage pulse Ph of the far zone FZ, via the the switching arm aw, which is in decade 9, of the selector W2 and the grid G2 of the discharge tube Rö via the contacts ioi x, io2s, 103u and 104q, then the discharge tube Rö, which has been ignited for the third time by the grid influence described above, comes around in the anode circuit the relay P via its winding I for excitation and puts itself with its winding II via the contacts 56u, 57e, 58A, 55a1 and 26c in a hold circuit. By opening the contact 8p, further influencing of the rotary magnet Dz of the counter switch Z via the wire 4 is prevented. In addition, further series of numbered current impulses cannot influence the rotary magnet Dw, of the selector W2. When the contact 58p is actuated, the discharge tube is extinguished. The relay St is de-energized because the capacitor Kot, in whose charging circuit it was held after the contact 38s opened, is charged and the circuit for the winding III at the contact 48 y is interrupted for a long time. The thermal relay Th is switched off by opening the contact 49st. The selectors W1 and WZ previously involved in the reversal were now used for zone detection, namely the switch arm cwl was used by the selector W1 and the switch arm aw by the selector WZ. The counter current is sent via wire z according to the setting of counter switch Z on contact 2.

Should the subscriber setting up the connection continue dialing the number after choosing the series of current impulses consisting of nine current impulses after the relay E de-energizes and before, for example, the relay St is excited, the following current impulse series will influence the rotary magnet Dw. Of the selector WZ and the In the ninth decade, screw switching arms aw2 ... cw onto one of the contacts corresponding to the following series of current impulses. Since only contact i, which can be reached in the ninth decade of switching arm aw2, is set to music, there would be no billing of charges for the connection established in this way. In the exemplary embodiment shown, the contacts 2 ... o in the decade 9 reached are now connected to one another by additional wiring corresponding to the wiring for the zone detection and connected to the NVZ (pseudo-zone) segment of the pulse generator PG to make a non-zoning pulse effective. In this case, the voltage pulse P1 becomes effective on grid G1 after the relay St has responded via the switching arm cwl of the selector W1, which is on contact 7 for the second decade, and at the same time the voltage pulse (NU) occurring via the segment NVZ on grid G2 effective after in this case z. B. the voltage pulse P f has become effective fifteen times as an incremental pulse to influence the relay ZO and as a result the rotary magnet Dz of the counter switch Z has been influenced fifteen times via the contact 5ixo, the discharge tube Rd will ignite and the relay P energized here Prevent further influence on the rotary magnet Dz of the counter switch Z (opening of contact 8p). In position 15 of the counter switch Z (arm b Fig. I) the thermal relay Thl is excited after a while and switches on the relay AR via the contact thl. A release (contact ar) of the connection path established so far is then initiated. The same processes can occur with the selection of other series of current impulses as identification, if this results in voter settings for which a voiceover is not possible. So z. B. when choosing the marking 2781 ... 278o; here the switching arm aw of the selector WZ reaches the interconnected contacts in decade 8 and thus into a position via which the voltage pulse NU again becomes effective as a non-zoning pulse on grid G2. In this case too, after the counter switch Z has been advanced to position 15, the connection is triggered. So all identifications that are not set to music are evaluated, so to speak, through the formation of a pseudo-zone (NU) in the zoning device VZ1, so that the set number surge receiver is triggered. The same processes (triggering) occur when the wiring of the soundtrack has cold solder joints or is otherwise interrupted in some way.

As can be seen from the above description, the triggering takes place as a function of the influence on the thermal relay Thl, that is, with a delay. This delay in triggering gives the opportunity in those cases where, for. B. a connection with a desired participant comes about, but as a result of the failure of the required dubbing pulse, the counter switch reaches position 15 to allow the conversation to take place without hindrance, but to signal the non-billing. In this case, when the subscriber reached is reported, the relay G is energized via its winding I in a way that is not of interest here: In position 15 of the counter switch Z, its winding II is in series with the relay Ah that responds in a hold circuit. The relay All triggers the alarm. The connection is not released so that the conversation can take place. After talking the end of the count switch due to keeping open the contact remains set all to the monitoring personnel to provide a testing facility. If there were no alarms in this case, the relevant connection path would remain blocked unnoticed.

The later triggering of the zoner VZl with such a setting of the selector W, and W2 also takes place in that first the relay C is de-energized and all other still-energized relays are switched off by the corresponding c-contacts: Then the selector WZ is first activated by influencing the Rotary solenoids Dw2 triggered in interplay with relays Y and A, since head contact 59k2 of selector W2 is closed; After the selector WZ has returned to the rest position, since the head contact 3k2 of the selector WZ and also the head contact 64k1 of the selector W1 are closed, the rotary magnet Dwl is also de-energized in interplay with the relays Y and A to switch the selector W into the Bring rest position. As soon as both selectors have returned to the rest position, the relay R comes through its winding I again in the rest position of the zoner VZl to excite.

If the calling subscriber selects the code 8592, the switching arms of the selector W1 in the eighth delta are switched to contact 5 and the switching arms of the selector W2 in the ninth decade to contact 2 at the same time as the number current surge receivers reached one after the other via the switching arm i of the reversing selector UW set. The fourth series of current impulses, consisting of two impulses, influences the rotary magnet Dw, the selector W2 via: -, Dw2, winding III of the relay U, contacts 89e, 66u, 18a, ig c, 6 st, 7z0, 8p after the relay E is de-energized , g nl, earth. After turning in the selector WZ, since the shaft contact 92w2 is closed, the relay Q is energized via: -, Wi3, shaft contact 92w2, relay Q, contact 88e, earth. Relay U remains energized for some time after contact 93q in the charging circuit of capacitor Kol has been closed: -, winding II of relay U, contacts 69u, 93q, Y4Tis, capacitor Kol, contacts 35x, 36st, 37e, earth. If the voltage pulse Pus now occurs, it reaches the grids G1 and G2 of the discharge tube Rö, namely to the grid G1 via the switching arm awl of the selector W1, which is on contact 5 in decade 8, contacts 70 v, 71 a, 72 zts, wave contact. i05 w2 of the selector W2, contacts 75 st, 52P and to the grid G2 via the switching arm cw2, which is on contact 2 in decade 9, the contacts io6zc and 104q. The discharge tube Rö ignites, so that the relay P responds again via its winding 1: in the anode circuit of the discharge tube Rö. After closing contact 58P, relay US is excited via: ---, winding II of relay US, io7q, io8u, 57e, 58A 55al, 26c, earth. The reversing criterion (relay U ,, via the selector W1 on contact 4) is given by the contact 24us via the wire 3. By moving the contact u4, the switching arm 5 of the reversing selector UW is made effective. By opening the contact 77us, the relay P is deenergized and the discharge tube Rö is extinguished. If now, after the capacitor Kol has been charged, winding II of relay U is also de-energized, i.e. relay U is de-energized, relay St speaks via: -, Wi4, contact 38s, windings II and I of relay St, contacts 94u, 95q , 96c, earth. By closing the contact 4ost the winding I of the relay S is brought under the influence of the voltage pulse Ps (synchronization pulse), so that the relay S responds at the beginning of a new cycle of the pulse generator PG. By closing the contact 42s, the relay S places itself with its winding 1I in a hold circuit. The energization of the relay St is maintained as previously described. During the further rotation of the pulse generator PG, the relay ZO is excited every time the voltage pulse P f (incremental pulse) occurs and, by means of its contact 5izo, causes the rotary magnet Dz of the counting device to be influenced; switch Z via wire 4. After switching four times, the voltage pulse P2 arrives again via the switching arm bwl on contact 5 in decade 8, the contacts 117q, 43st, 52p to the grid G1 and at the same time the voltage pulse PIII2 (FZIII) Via the switching arm bw2 standing on the contact 2 in the ninth decade, the contacts iog x, io2s, zo3u, 104q to the grid G2 of the discharge tube Rö. The discharge tube Rö ignites again and causes the winding I of the relay P to be excited in its apodal circuit. By opening the contact 8p, further influencing of the rotary magnet Dz of the counter switch Z via the wire 4 is prevented. This enables counting via wire z in accordance with the setting of counter switch Z (arm a) on contact 3. When the contact 58p closes, the relay P with its winding 1I is in a hold circuit, while when the contact 58p is actuated, the winding I of the relay P is switched off and the discharge tube Rö is extinguished. In the connection case described above, the switching arms awl and cw were used for the reversal, and the switching arms bwl and bw for the zone detection. The discharge tube was also switched on several times. The release after the end of the call takes place in the manner already described.

If the calling subscriber selects the identifier 9400 through which, for example, a service line DL (FIG. I) is reached, the setting of the dialers X'1 and W2 takes place as in the connection case described above. The switching arms of selector W1 reach contact 4 in the ninth decade and the switching arms of selector W2 reach contact o in decade o. Since shaft contact 92w2 has been closed after the selector W2 has been turned in, relay Q is again energized came. The relay U remains energized for some time after the contact 93q is closed in the charging circuit of the capacitor Kol. Is now after the charging of the capacitor Kol also the winding II of the relay U de-energized, so the relay U-energized, thus saith the Relais St at over: - TV, contact 38s, windings II and I of Relais St, contacts 94u, 95q , 96c, earth. By closing the contact 4ost, the winding I of the relay S is brought under the influence of the voltage pulse Ps (synchronization pulse), so that the relay S responds at the beginning of a new cycle of the pulse generator PG. By closing the contact 42S, the relay S places itself with its winding 1I in a hold circuit. The energization of the relay St is maintained as previously described. During the further rotation of the pulse generator PG, the relay ZO is excited every time the voltage pulse P f (incremental pulse) occurs and, by means of its contact 51z0, causes the rotary magnet Dz of the counter switch Z to be influenced via wire 4. After six increments, the voltage pulse P3 passes the switching arm bwl standing on the contact 4 in the decade 9, the contacts 117q, 43 st, 52P to the grid Gl and at the same time the voltage pulse PV3 via the switching arm bw2 standing on the contact o in the decade o, the contacts iogx, 102s , 103u, 104q to the grid G, the discharge tube Rö. The discharge tube Ro ignites and causes the winding 1 of the relay P to be excited in its anode circuit. By opening the contact 8p, further influencing of the rotary magnet Dz of the counter switch Z via the wire 4 is prevented. Since the switching arm b of the counter switch Z is on the contact 6, the relay U comes in some way not of interest here; for excitation and, by moving the contact u, causes the service line DL to be connected to the busy connection line VL. The processes in the zoner VZ are the same as previously described. The counting switch is therefore now used to reverse the direction of traffic, namely it is advanced by a number of current impulses determined by the directional identification of a series of current impulses otherwise used to record charges. The discharge tube, which is switched on between the selectors W1 and W2, acts like the zone detection.

If the calling subscriber selects the code 7523 to set up another connection, the switching arms of the selector W1 on contact 5 in the seventh decade and through the code part are simultaneously with the number surge receivers reached one after the other via the switching arm i of the reversing selector UW 23 the switching arms of the selector W2 are set to contact 3 in decade 2. Before the switching arms of the selector W2 are set to contact 3 in the second decade, the changeover criterion is first applied. This changeover criterion is given if, after dialing number 2, the decade contact dkw is actuated in decade 2. The relay E is held in the charging circuit of the capacitor Kol after the number 2 has been selected. Then the reversing pulse Pus occurs on grid G1 via: switching arm awl of selector W1 on contact 5 in decade 7, contacts 70v, 71a, 72 US, 73e, shaft contact 74w, of selector W2, 75 st, 52P and the same Time at the grid G2 over: Decade contact dkw "of the selector WZ in decade 2, contacts 76s and 53q. The discharge tube Rö ignites so that the relay P responds and after the contact 58p closes, the relay US is excited via its winding II. By closing the contact 24us, the relay U, is excited via the wire 3 (after three series of impulses the selector W is on the contact 3). The arm 4 of the reversing selector UW searches for a free number current impulse receiver after switching the contact u3. The relay US closes meanwhile with its winding II via the contact 22us into a holding circuit. When the contact 58P is actuated, the winding I of the relay P is switched off and the discharge tube Rö is extinguished g of the capacitor Kol is de-energized and, as a result, by dialing the fourth digit 3, since the contact 89e is closed, the rotary magnet Dw of the selector W2 is actuated, its switching arm, as already mentioned, reaches contact 3. Da in the second decade After turning in the selector W2, the shaft contact 92 w2 is closed, the relay Q is excited via: -, T4'13, shaft contact 92w2, relay Q, 88c, earth. As in the previous example, the further switching operations proceed accordingly, the rotary magnet Dz of the counter switch Z m ie in the previous example being influenced three times (far zone FZ,, I). Then follows -, low, a simultaneous occurrence of the voltage pulse P2 on the grid G, and - the voltage pulse PIIIz on the grid G2, so that further influencing of the counter switch Z as in the connection case described above is prevented. The selector W1 and W2 as well as the discharge tube Rö were also used several times in this connection.

The circuit described above also enables monitoring of the delay pulses and the incremental switching of the counter Z and the respective ignition of the discharge tube. As can be seen from the circuit, the relay St holds when the counter switch Z z. B. as a result of the stepping pulse Pf occurring in the correct rhythm, i.e. continuous interruption of the circuit of the relay Y at the contact dz, advances via its winding III (contacts 49 st and 48 y), because the relay St is by short-circuiting its winding I over the Contact 113s delayed. If an incremental pulse fails or if the contact dz is not interrupted due to a mechanical fault in the counter switch, so that the relay Y remains energized, the relay St drops out and switches on the winding I of the relay AL via its contact 114st. This relay gives an alarm. The same occurs if the tube does not ignite due to a faulty discharge tube. After one revolution of the pulse generator PG, the sequence of incremental pulses P f is interrupted for a longer period of time, since the first incremental pulse P f does not occur again at the beginning of a new revolution until after the synchronization pulse Ps has been emitted. The contact dz remains closed longer than corresponds to the rhythm of the incremental pulses P f , so the relay Y is energized longer, so that it is not possible to hold the relay St via its winding III. Also in this case the relay Al comes to alarming for excitation (Contact 114st). If a desired subscriber is reached here and has also reported, the relay G, which responds when the subscriber reports, prevents the connection from being triggered and keeps the counting switch set.

If the relay St is energized to initiate the zone detection, there is no energization of the relay S z. B. as a result of a fault in the pulse generator PG (missing synchronization pulse Ps), the relay St holds itself over: -, W14, contact 38s, windings II and I of the relay St, contacts zoost, 96c, earth. Since the contact dz remains closed, i.e. the relay Y is energized, after a while the thermal relay Th comes through the contacts 49st and 116y. After closing the contact ii2th, the relay AL responds via its winding II and gives an alarm. By closing the contact iiial, the relay Al places itself with its winding II in a holding circuit; the thermal relay Th is switched off. By pressing the AL keys it is possible to trigger the zoner VZl.

In summary, it should be noted that in the embodiment described, if the counter switch Z is in position r5, the thermal relay Thl is actuated after a certain delay time and, by energizing the relay AR, triggers the connection path established at the contact ar. If, however, the established connection path led to a call from a subscriber and the subscriber reached reported prior to actuation of the thermal relay Thl, the relay G excited when the subscriber reported via the established connection path is placed in a holding circuit in which the alarm relay All responds and a Signaling initiated. The connection path is not triggered in this case. The counter switch Z (-, Dz, all, dz, bel; earth), which is otherwise switched to the rest position after the end of the call, remains in place. The monitoring staff can search for the fault.

Claims (2)

PATENT CLAIMS: r. Circuit arrangement for telecommunication systems, in particular telephone systems with dialer operation, in which, when establishing connection paths for which no monitoring circuits are established as a result of errors that have occurred in the system or as a result of incorrect selection, control circuits are effective via additional wiring of the dialing devices in a manner that would otherwise take place during monitoring are, according to patent 9o8 988, wherein according to claim q. of the same, a switching mechanism which is used for billing and can be influenced according to the timing of the voltage surges used for billing is held in a special switching position by the control circuit in the event of errors and, if necessary, triggers the established connection path, characterized in that when a connection is established via the established connection path Switching devices that are dependent on the notification of the subscriber reached, in the special switching position of the switching mechanism, instead of a switching device causing the triggering, allow an alarm device to become effective without hindering the connection that has been established. 2. Circuit arrangement according to claim r, characterized in that the switchgear is held in the special switch position after the call has ended.