DE703785C - Circuit arrangement for counting connections of different values in telecommunications systems, in particular telephone systems - Google Patents

Description

Circuit arrangement for counting connections of different values in Telecommunications systems, in particular telephone systems The present invention relates to a circuit arrangement for counting connections of different values in telecommunications systems, in particular telephone systems.

Its purpose is to carry out the various counting processes by largely saving on facilities easier and more economical design.

The known arrangements for performing time zone counting at the end of the connection require a zone switch, a timer and a Tapping The zone switch, which corresponds to the direction-determining code numbers is set, thereby switches a certain of several switching arms of the Timer on. When the timer arm is switched on, the connection a specific position corresponding to the number of counting current impulses to be sent out marked, whereupon the pick-up stops the transmission of the counting current surges in the through the timer of a certain number changes to the counter of the calling station.

The present invention now achieves a saving in switching devices in that the functions of the timer and the tap through a switching mechanism are executed. This problem is solved by the fact that a fee switchgear is provided, .that: by a time switch at certain time intervals for switching is stimulated, the length of the respective increment by control devices of the fee control system is determined, which corresponds to the different tariffs Number of contacts to be connected electrically by zone determination devices act.

From a previously proposed arrangement based on purely mechanical Ways the amount of the fee to be charged for a connection is different The present invention in that it both determines the distance zone the connection as well as determining the length of the after each stimulus by the Time switch to be covered by the fee switchgear on electrical Ways allows., In the drawing is an embodiment of the subject matter of the invention shown, namely the drawing shows a transformer with the means for Performing the count according to time and zone.

It is assumed that the transmitter can be reached via a group selector, namely in different ways depending on the setting of the group selector through the code number that has become effective on it. It is initially assumed that the group selector is set in such a way that the transformer shown is occupied via wire c. It speaks to the relay C in a circuit that runs from your previous group selector via the winding of the relay C in the transformer, contact 36s and your counterpotential in the subsequent connection device. When it responds, relay C closes its contact 15c and thus the following circuit for relay F: earth. Contacts 15c, 2i v, 2814 Schaltarnig, in neutral position, contact: 44u, switch arm ds, in neutral position, contacts 72k, 98i, winding I of relay F, battery, earth. The relay F closes its contact 61 f and thus a circuit for the switching magnet Ds in the following way: earth, resistance Wi., Contacts 61 f, 6o v, winding of the magnet Ds, battery, earth. In this circuit, the magnet Ds responds and switches its switching arms cis to ds from the rest position to the first contact. In this position, the rotary magnet G is switched on via the switching arm ds. At the same time, the above-mentioned circuit of the relay F is interrupted on this switching arm, so that it drops out shortly thereafter. The numeral current impulse series given by the subscriber after the setting of the group selector located in front of the transmitter are now picked up by the transmitter and given to the subsequent connection devices for the purpose of setting the same. Furthermore, devices for determining the direction of traffic or the zone and value of the connection are set up by these series of numbers. This is done in the following way: The series of current impulses given by your calling subscriber are conducted via the a-wire by applying earth potential to the upstream group selector to the transformer shown in the drawing, namely: Earth on the a-wire in your upstream group selector, contact 2 b, winding of relay J, battery, earth. The relay J is energized in pulses for each series of current impulses according to the number of current impulses it contains. In doing so, it closes its contact 70i in pulses, as a result of which the current surges are transmitted to the following connection devices in the following way: earth, contacts 42 y, 68 a., 7 i i, 70 i, upper voice wire, contact 34s to the following connection devices, in which a pulse relay corresponding to the relay J is arranged to receive the transmitted current surges. At the same time, magnet G is influenced by the first series of impulses to the transformer in the following way: earth, contacts 42y, 68a, 71i, 7o k, switch arm dsl in position i, magnet G, battery, earth. The switching arms of the magnet G are accordingly set to a specific contact in accordance with the numbered current impulse series. The switching arms g and g2 are connected to certain switching arms of a switching mechanism H in this way. When relay J responds for the first time, contact 64i and thus the following circuit for relay V are also closed: earth 'contact 42v, 64i, winding of relay V, battery, earth. The relay V is a relay with delayed release, so that its contacts are not actuated due to the short power interruptions at contact 64i during the individual current bursts. The relay V opens its contact 33 v and thereby interrupts the upper speech wire during the transmission of the series of current impulses. By closing the contact 22v turn a circuit for the relay F arises: c earth contacts 15, 22 Z ', winding 1I of .Relais F, battery, earth..

When the current impulses of the first series of current impulses conducted to the transformer are ended, the contact 64i is opened for a longer period of time and the above-described circuit of the relay V is interrupted. The relay V also opens its contact 22V and thus the above-mentioned circuit of the relay F. The relay F is also a relay with delayed armature drop, so that after opening the contact 22v, the contacts of the relay F remain closed for a while. During this time (relay V dropped out; relay F still energized) the magnet Ds receives a current impulse in the following way: earth, resistance Wie, contacts 6i f, 6ov, winding of magnet Ds, battery, earth. The switching arms of the magnet Ds are thus connected upstream to the second contact, so that a switching magnet H is now switched on via the switching arm ds. The rush current for the rotary magnet Ds is terminated by the dropping of the contact 61 f.

If the subscriber sends out the next series of current impulses, relay J is again energized in the manner described above. The contacts 70 i and 7 i i are again closed in a pulsed manner in the manner already described, so that on the one hand the current impulses are passed over the upper speech wire to the following connecting devices, on the other hand the impulses on the magnet Hin become effective as follows: earth, contacts 42y , 68 a, 71i, 72k, switch arm ds, in position 2, winding of magnet H, battery, earth. The switching arms of the magnet H are adjusted accordingly. Simultaneously, the relais Retarded = approximately V is turned on as in the previous impulse series which closes the circuit for the delay relay F in existing prescribed manner. Is the. The series of impulses is terminated and the contact 64i is open for a longer period of time, the relay V drops out again and interrupts the circuit of the relay F at contact 22v Impulse current: earth, resistance As, contacts 6 1 f, 6o v, winding of magnet Ds, battery, earth. The switching arms of the magnet Ds are thus set to the next, the third contact, so that the switching magnet Dx is now switched on via the switching arm dsl and the contact 46x. When the next current impulse friction is delivered, the processes already described are repeated, with the only difference that the magnet D- receives current surges in the following way by closing and opening the contact 71 i: Earth, contacts 42y, 68a, 71i, 72k , Switch arm dsl in position 3, contact 46x, winding of magnet Dx, battery, _ earth. The switching arms of the magnet Dx are thus brought to a specific contact. In the manner already described, the delay relays V and F respond, and after the end of the burst series and A_ fall of the relay L ', the magnet Ds again receives a current surge through the contact 6o v of the dropped relay V and the contact 6 1 f of the still energized Relay F. The magnet Ds moves its switching arms accordingly to the next, the fifth contact. Further switching operations via the switching arm dsl are now not possible because the fifth and the following contacts are not connected to other devices. The magnets G, H and Dx have now been set in the manner described in a certain way according to the series of current impulses that have become effective on them, so that the switching arms of these switching mechanisms are on certain contacts. Through these switching arms a very specific path is now established according to the numbered current surge series sent by the calling station, in such a way that the earth potential connected to the contact r 5c is brought into connection with one of the zone rails indicated in the drawing with I to IX. The following circuit is then established: earth, contacts i5 c, 21v, 28u, switching arm g1, lal, dxl in certain positions, a connecting line leading to zone rails I to -IX, one of the zone rails, windings II and I of relay K, Battery, earth. In this circuit, the relay K responds, which indicates that a correct setting of the switching arms g1, hl, dxl has been made in accordance with a certain value of a connection. The relay K opens its contact for 72 hours and thereby switches off the switching arm dsl.

- A connection was described above in which the assignment of the transformer shown in the drawing took place via wire c. It is now assumed that the upstream group selector is set according to a certain code number in such a way that the assignment of the transformer takes place via 'wire c'. In this case, in addition to relay C, relay U is also excited in the following circuit: wire c coming from the upstream group selector, winding of relay U, winding of relay C, contact 36s, counter potential in the downstream connection device. In this circuit, relays U and C respond, with relay U responding a little earlier than relay C. Relay U immediately opens its contact 28 u and closes contact 27u. As a result, the switching arm g1 of the zone identification device is switched off and the switching arm w1 is switched on. The connection of the switching arm is required for this connection, since in the case now discussed another category of connection value is assumed, for example a long-distance connection, while it was previously a lower-value connection, for example a suburban or network group connection. The relay U continues to open the contact 44u, thereby influencing the relay F, as in this case. the connection described above was the case, and thus a switching of the switching mechanism Ds is avoided for the time being. By closing the contact 43 2t, the magnet W is now switched on, so that in this case the first series of impulses picked up by the transformer shown in the drawing is effective on the magnet W. When this series of pulses is sent out and the relay J responds in pulses, the following circuit is closed for this magnet: earth, contacts 42 y, 68 a, 7 r i, 72 k, switch arm dsl in the initial position, contact 43 u, winding of magnet W, battery , Earth. Simultaneously with the first response of the relay J, as was also described in the previous connection, the delay relay V and through this the delay relay F were switched on. After the end of the series of impulses and the relay V drops out, the switching magnet Ds then receives a current surge in the manner described, so that the switching arm of this magnet is switched to the first contact and in this way the magnet G is now switched on via the switching arm dsl. The next series of current impulses sent by the calling subscriber are now effective on magnets G, H and Dx, as has already been described. In this case, the zone is identified by a series of current impulses more than in the previous case. The following route, for example, could then be ordered for the corresponding zone rails I to IX: earth, contacts 15c, 21 v, 27 U, switching arms u, i, g2, h2, dx2, zone rail.

It should also be mentioned that in certain cases, when a particular traffic direction is marked, a switchover can be made in such a way that the magnet Dy is influenced instead of the switching magnet Dx and the zone marking is accordingly carried out via the switching type of this magnet. If, for example, the switching mechanisms W, G and H are set in such a way that. on the way earth. Contacts 1 5 c, 21 v, 27 lt, switch arms w ,, g:>, lis in certain positions, dy, or dy2 in rest position, winding II of relay X, battery, earth the relay X is energized, a Switching from magnet Dx to magnet Dy by opening contact 46x and closing contact 47x. During the adjustment of the magnet Dy, the relay X remains energized via its contact 24a and the contacts 23, 71, 22 t, of the delay relay 1 '.

It is now assumed that, in accordance with the code numbers which take effect on the switching mechanisms tfr, G, H, Dx, Dy, the setting of the same is such that a connection with the zone rail IX is established. With this setting of the switching arms, the relay K is then again excited via its windings 1 and II. Furthermore, this zone rail IX is connected to a certain set of springs 29n111, 3011111, 3 i in a tariff tap changer TSch.

The tariff tap changer consists of a single roller, which is divided into different sections. Each roller section corresponds to a connection value, and each roller section has a specific set of springs. The individual roller sections are now specially designed in accordance with the tariff requirements of the individual traffic directions and their value, and each section of the roller is provided with bores in a certain number and arrangement. The springs belonging to the individual sections, of which only the springs 39 ″ 11n, 303111t, 31 tyn connected to the zone rail IX are shown in the figure, are under the action of magnets Tin and Nm, which in certain cases, as will later are carried out, release the springs of all sections so that under the action of a spring force they either hit the surface of the roller or, if they are opposite a bore, collapse into the same. Only if the latter is the case, the contact of these springs will also be actuated.

It is assumed that the calling subscriber has set the connection devices by sending out the required series of current impulses and has established the connection to the desired subscriber. If the called subscriber answers, battery potential is applied in a known manner to the lower voice wire of the downstream connection device, so that the following circuit is established: Battery potential in the downstream connection device, lower voice wire, contacts 35s, 18y, winding I of relay T, contact 19 t, earth. In this circuit, the relay T responds, which opens its .Kontakt 19 t and thereby a short circuit for the winding I of the relay B, so that this is included and excited in the above circuit. Relay B closes its contact 45 b and thus the following circuit: earth, contact 42 y, winding 1I of relay R, contacts 40l, 38s, 45b, switching arm ds ,, in working position, winding of magnet Ds, battery, earth. In this circuit, only the relay R can respond, but not the magnet Ds. The relay R closes its contact 62r and thus the following circuit for the relay L: earth; Contacts 42y, 63 i, 62v-, winding I of relay L, battery, earth. The relay L opens its contact 4o Z and thereby the above-mentioned circuit for the relay R and closes the contact 41l. The winding I of the relay R is short-circuited, so that this relay is given a certain drop-out delay. As a result, even after the contact 401 has opened, the circuit for the relay L is maintained for a short time. The following circuit is thus established for the magnet Ds: earth, resistance Wie, contacts 411, 38s, 45b, switching arm dsß, winding of magnet Ds, battery, earth. In this circuit, the magnet Ds can respond, so that the switching arms of the same are advanced one step. Shortly thereafter, the relay R comes to waste, which interrupts the circuit established for L by opening its contact 62 r. This relay therefore drops out and terminates the surge of current sent to the magnet Ds. The circuit already mentioned above is now switched on for relay R: Earth, contact 42 y, Wick-Jung II of relay R, contacts 40 1, 38 s , [5 b, switching arm ds4 in working position, magnet Ds, battery, earth . The relay R in turn closes the circuit for the relay L at the contact 62r, which in turn sends a current impulse to the magnet Ds by closing its contact [i 1]. This interplay between the relays R and L continues until the magnet Ds has moved its switching arms into the rest position. When the switching arm ds4 reaches its rest position, the following circuit is closed: Earth, contact 42 Y, winding II of relay R, contacts 401, 38s, 45 b, switching arm ds4 in rest position, contacts 5 1 k (relay K was via zone rail IX energized), 58, f, winding I of relay Y, battery, earth. In this circuit only the relay R responds, which closes the already known circuit for the relay L. The relay L closes its contact 41 1 and thereby applies ground potential via the resistor Like. Relay Y can now also respond, opening contact 16y, thereby canceling the short circuit for its winding II and maintaining it in the following circuit: earth, contacts 1 5 c; 1 3 a, winding II of relay Y, contact 17 b, winding II of relay B, battery, earth. The two relays Y and B remain in this circuit for the duration of the connection. At contact i8y the relays T and B of the lower speech wire are switched off. By closing the contact 32y, the winding II of the relay K is short-circuited.

The time counting starts when the called subscriber reports. By closing contact 67y, winding 1I of relay L is connected to a 5 "switch and this relay is energized every 5" in the following way: earth, 5 "switch, contacts 66o, 65m, 67y, winding II of the relay L, battery, earth. The relay L closes its contact 831 and thus a circuit for the relay F: earth, contacts 59y, 831, winding I of the relay F, battery, earth. If the earth potential is switched off a short time later by the 5 "switch and the relay L is thereby brought to drop, the circuit for the relay F is also opened at contact 831 , but this relay keeps its contacts actuated for a short time. During the excitation time of the relay F, the switching mechanism Ds, which is now used as a time switch, receives a current surge in the following ways: earth, resistance Wie, contacts 6I f, 6o2, winding of magnet Ds, battery, earth. The switching mechanism Ds is now influenced every 5 "and the switching arms of the same are gradually connected upstream. With the switching arm ds $ in the working position, the circuit to be closed by the 5" switch for the winding II of the relay L is made independent of the contact 66 o.

According to the present embodiment, the calling party after the called party has reported a short period of time, around 10 to 15 "(the waiting period), during which he can hang up his listener without immediately having to pay for high-quality Connections are charged to be offset fees, but the calling subscriber, if he hangs up his receiver during this time, only a small amount, for example the amount that is offset against local calls is brought, calculated. In the present embodiment, the counter gets of the calling subscriber in this case only one counting current surge. Purpose of this arrangement is to protect the subscriber from unjustifiably high charges, if the called Participant is not the desired one.

This low fee is offset in the following way: The switching arm ds2, which is located on contact i after the first current impulse sent by the 5 "switch, comes when the relay L, winding II, is triggered by the 5" -Switch effective pulse has ended, but relay F keeps its contacts in the working position for a short time, the following circuit for relay O is established: earth, contacts 59y, 821, 8I f, switching arm ds2 in position i, switching arm dms in zero position , Contacts 89 t, 87 0, winding I of relay O, battery; Earth. In this circuit, the relay O responds and closes its contact 88 o (drag contact); thereby producing the following holding circuit for itself: earth, contacts 85c, 86m, 88o; Winding I of relay O, battery, earth. If the receiver is hung up at the calling point at this time, the battery potential in the upstream connection device, which is applied to the upper speech wire a when the caller gives the final signal, contacts ib, windings I and II of relay A, contact 1 5 c , Earth, the relay A in the transformer made to respond.

Relay A closes its contact 7a, thereby serving the following way for counting battery potential is applied: earth, battery, winding of the relay I, contacts 3 b, ¢ o, 5 p, 7 a, lower opening core for upstream group selector, where this assigned counting relay is activated and the counter of the calling station is incremented. At the same time, the contact 13 a were opened and the contacts tia and 12 a were closed. By opening contact 13a, a point in the hold circuit established for relays B and Y. is opened, so that these relays drop out after a short time (both have delayed drop-out, winding I of relay B is short-circuited by contact i9 t). The relay B opens its contacts 17 b and i b. The first-mentioned contact opens a second point in the hold circuit of the relays B and Y, while the relay << 1 is switched off again at the last-mentioned contact. By closing the contact 12a, a circuit for the relay S was formed: earth, contacts 15c, 12a, winding II of the relay S, battery, earth. The relay S interrupts the connection to the downstream connection devices at the contacts 34s, 35s and 36s, whereby the signal to trigger the same is given. The holding circuit of the relay 0 is opened again when, after the count is complete, the potential of the cAder in the upstream connection device is switched off and the relay C is brought to drop as a result. By opening contact 85 c, the hold circuit for relay 0 is interrupted. The triggering of the other devices still set will be described later.

It can also happen that local connections, that is connections for which from the start only one counting current surge may be effective on the counter of the calling station, run via the transmitter. The setting of the zone determination devices G, FI, Dx, etc. is then such that the earth potential applied to the contact 15c is brought into connection with the zone rail I. The following circuit then arises: earth, contacts i 5 c, 2 iv, 28u, switching arms g1, hl, dxz in certain positions, zone rail I, winding II of relay 0, windings II and I of relay K, battery, earth. Relays 0 and K respond in this circuit. The relay 0 then creates a holding circuit in the same way as already described: earth, contacts 85 c, 86 in, 88o, winding I of relay 0, battery, earth. The relay 0 immediately opens its contact 66o and thereby prevents the 5 "switch from continuing the device Ds used as a time switch. A time counting is therefore not carried out in the case of local connections.

The transmission of the counting current surge to the upstream connection device takes place in the same way as has already been described for the case that the calling subscriber hangs up his receiver during the waiting period. Namely energized exchanger in circuit signaling the part of the calling station by application of battery potential on the upper opening of cores the relay A in the over-65 again, the contact 7 is a closed and thereby turned on, the serving for counting battery potential: earth, battery, winding of the relay I, contacts 3 b, 40, 5 A 7a, b-wire to the counting relay in,, 70 upstream connecting device, Er As previously described, the relays B, Y and A are then brought to the rest position.

It is now assumed, however, that the 75 calling subscriber has a high-quality connection. established and also reached the desired participant. In this case, as was assumed, the devices serving to determine the zone are set in such a way that the earth potential applied to the contact i 5 c is connected to the zone rail IX. A set of springs is connected to this zone rail, which is marked on the drawing with 29 nyn, 31 tm and 30 nm : 85 The spring 31 tm is activated, as will be described in more detail in a moment, when the charge is made according to the Day tariff, the spring 29 nm, if the billing takes place according to the night tariff. More details will be given later on actuating the spring 30 nm. Has the switch arm ds. reaches its third contact under the control of the 5 "switch (after reaching this position, the waiting period has expired, which lasts 95 so a minimum of OK, a maximum of 15") "Switch of this relay drops out, via a contact of the still addressed relay F, the following current-moo circuit is closed: Earth, contacts 59y, 821, 81 f, switch arm ds, in position 3, contacts 92e, 91 x, 941e 96t, winding of the Relay 'Z, battery, earth. In this circuit the relay Z responds, which closes its contact 95z 105 and thus makes itself independent of contact 94p. Furthermore, by closing the contact 79z, the relay R is connected to a device for determining the type of charge offset, whether according to the day or ilo .. night tariff. This device is controlled by a clock in such a way that during the time during which the night tariff is to be taken into account, earth potential is switched on, while at: time 115 of the day tariff this earth potential is switched off. It is initially assumed that the daily tariff may apply, so that relay R cannot respond when contact 79z closes. 110 By closing the contact 57z the following circuit is created for the magnet hm: Earth, contacts 59 y, 57 z; Winding of magnet Vm, battery, earth. The magnet Vm switches the tariff step switch TSch forward by one step. At the same time, the following circuit was closed for the delay relay P: earth, contacts 59y, 74z, winding of relay P, battery, earth. If the circuit for the relay Z is opened again at the contact 8 1 f, the circuit of the relay P is also interrupted by opening the contact 74z. However, since this keeps its armature in the working position for a short time, after contact 56z has dropped, contact 55p remains closed for a while, so that the following circuit is established for magnet Tm: earth, contacts 59y, 56z, 55A, 53r, winding the magnet's tin, battery, earth. When the magnet Tzn responds, all of the springs tm associated with the individual roller sections of the tariff tap changer, including the spring 31 tm, are released so that they are now moved towards the roller under the action of a spring force. As already indicated, the individual roller sections have bores in a very specific number and arrangement depending on the fee to be charged for the corresponding value. If the spring 3 z tm is now facing such a hole, then when the magnet Tm responds under the action of the spring force, the spring 3 r tm will fall into the hole, whereby a contact and thus the following circuit for the relay 111 is closed by this spring: Earth, contacts 15 c, 21 v, 27 u and 28 u, switching arms of the zone determination devices 1V, G; H, Dx or Dy in certain positions, zone rail IX, contact spring 3 i trn, winding I of relay 11T, battery, earth. In this circuit, the relay M responds, which by closing its contact 26m is in the following holding circuit: earth, contacts 1 5 c, 25 vm, 26m, winding II of relay l11, battery, earth.

By opening the contact 8611t, the holding circuit for the relay U is interrupted and the preparation for the crediting of a simple local fee is reversed. The relay M also closes its contact gom, thereby producing the following circuit for the relay Z: earth, contacts 59 y, 90114 94A 96 t, winding of relay Z, battery, earth. The relay Z closes on the one hand at contact 7q: z the above-mentioned circuit for the. Delay relay P, on the other hand, by closing contact 57z, the switching magnet Tim of the tariff tap changer receives a current surge: earth, contacts 59y, 57z, winding of magnet Vm, battery, earth. The magnet L'm has a contact a5 vyn, which is now opened and thereby interrupts the holding circuit for the winding II of the relay M. This relay therefore drops out, opens the circuit of the relay Z through contact 9o m. The relay Z therefore drops out and again interrupts the circuit of the delay relay P at contact 742, which, however, keeps its contacts in the working position for a short time. The following electrical circuit is therefore established for magnet Tm: earth, contacts 59y, 564, 55P, 53r, winding of magnet Tm, battery, earth. The magnet Tni. again releases the contact springs assigned to the individual roller sections of the tariff tap changer, so that it can now be checked again by contact 31 tm whether the tariff tap changer has to be switched further or not. If the bore of the roller now extends so far that the spring 31 tm can collapse again, the contact is made again by the spring and thus the circuit for the relay ill again. In this way, depending on the configuration of the roller corresponding to the fee to be charged, the tariff step switch is incremented by a certain number of steps. Only when the spring 31 tyta no longer faces a bore, i.e. when the magnet Tyn responds, the spring hits the roller shell, since in this case no more contact is closed by the spring 31 tzsz, the tariff tap changer is temporarily stopped.

It had already been mentioned that at the time of the night tariff, a device NT applied earth potential to contact 8o o. In this case, as soon as the relay Z is triggered for the first time after the waiting period has ended and the switching arm ds = is triggered on the third contact, a circuit for the relay R is established: earth, device NT, contacts 80 0, 79 z, 78 r, winding III of relay R; Battery, earth. The relay R opens its contact 78r and closes the contact 77r (drag contact), thereby producing the following holding circuit: earth, contacts 59 y, 77r, winding III of relay R, battery, earth. The relay R now switches over, in such a way that by opening the contact 53r the magnet Tm, which comes into force at the time of the day tariff, is switched off and by closing the contact 54r, the magnet Nm, which helps offset the fee according to the night tariff, is switched on. In this case, when relay Z drops out (contacts of relay P still in working position for a short time), a circuit for magnet Nm is closed: earth, contacts 59y, 56z, 55A 54r, winding of magnet Nnt, battery, earth. In this case, therefore, it is not the springs in (on the right in the figure) that are activated by the roller, but rather all the springs; in the left of the roller, i.e. also the springs 29 iaht. The springs nin also belong to individual roller sections, the training of which is adapted to the different night tariff.

It is assumed that the switchgear of the switching mechanism Ds must pass over twelve contacts until it reaches its rest position. Has the switch arm ds. reaches the last contact under the action of the 5 "switch, ie after one minute, the following circuit is established for magnet Dm: earth, contacts 59y, 821, 81 f, switching arm ds2 in position 12, winding of magnet Din "Battery, earth. The magnet Din receives a current impulse every minute and switches its switching arms upstream."

It is assumed that the tariff is set up in such a way that the fee for 3 minutes is to be credited immediately after the waiting period has expired. For this reason, devices must be available to prevent the tariff tap changer from being switched further for the second and third minutes. If the switching mechanism Dtn has brought its switching arm dm, to the first contact, i.e. after one minute, the following circuit is created for relay X: Earth, contacts 59y, switching arm dnt2 in position i, winding I of relay X, battery, earth . The relay X responds and opens its contact 9i x, so that if the switching arm ds2 reaches the third contact in the course of the next minute under the action of the 5 "switch, the relay Z is excited and the magnet is affected After the second minute, the switching arm ds2 again reaches the contact 12, so that the magnet Dm receives a current impulse in the same way as was described above. The switching arm dmi thus reaches the second contact The contact is still connected to the winding I of the relay X, so that by maintaining its circuit and keeping the contact 91x open, the relay Z is prevented from responding and the magnet Vin is prevented from being influenced.

It is assumed that after 3 minutes the charge will be charged from minute to minute. If, after the third minute, the switching arm ds2 again reaches its contact 12, the magnet Din again receives a current impulse, so that the switching arm dm is set to the contact 3. This contact is no longer in connection with the relay X, so that the circuit for this relay on the switching arm dm2 is opened and the same is brought to waste. If the switching arm dsg reaches the third contact in the course of its movement, the circuit for the relay Z is closed again: Eid contacts 59y, 82l, 81f, switching arm ds2, Kon = `takt 3, contacts 92e, 9i x, 94p , 96t, winding of relay Z, battery, earth. By closing the contact 57z, the magnet hm causing the incremental switching of the tariff step switch receives a current surge: earth, contacts 59y, 57z, winding of the magnet hm, battery, earth. By closing the contact 7q.z, a circuit is in turn closed for the delay relay P: earth, contacts 59 y, 744 winding of the relay P, battery, earth. If the circuit of relay Z at contact 81 f is interrupted, it drops out and interrupts the circuit of relay P at contact 7q.z. In the state where P is addressed as a delay relay, Z dropped out, magnet Tnt or, if the night tariff is in effect, magnet Nna receives a current surge: earth, contacts 59y, 56z, 55A 53r, winding of magnet Tm bz «- contact 5q.r, winding of the magnet with, battery, earth. The springs nm or tin, depending on the applicable tariff, are now released again. .If they fall into a bore, the relay 1V1 is made to respond in the manner already described, which closes the circuit for the relay Z at the contact 9o m, so that a further advance of the tariff level switch as a result of the switch-on of the magnet Vm on Contact 57z takes place. The tariff tap changer is now switched on under its own control for that long. until the selected contact spring, which is controlled by the magnet Tm or iV m , can no longer fall into a bore, but strikes the roller shell, in which case this spring can no longer close the contact.

When the switching arm ds, moved under the influence of the 5 "switch, again reaches contact 12 after the fourth minute , a circuit is again closed for the magnet Dm , so that its switching arms are advanced by one step , now in the course of its further movement again on contact 3, the processes for advancing the tariff step switch begin again, namely the circuit for relay Z is closed. This in turn closes the circuit for the magnet Vm, which the advancing of the tariff step switch The magnet Tim or: Vm is switched on again, whereupon the automatic incremental switching of the tariff step switch begins again or, if the springs nm or tm strike the roll shell, further automatic switching of the same does not take place Tariff level roller it is very easily possible, every possible crediting a r certain fee in the simplest way to accomplish. With the help of the roller, it is also possible, when the tariff provisions change, to make the change in the crediting of the fee in the simplest way, namely by replacing the roller with another that is designed in a corresponding manner. Subsequent tariff claims can only be met by replacing the roller. -It can now happen that the fee schedule is such that after the 3-minute fee has been taken into account, the same fee should be taken into account for two consecutive minutes. For example, and this often occurs with the night tariff, the 3-minute charge for a connection to remote zone II can be charged e.g. B. 20 Ad, while with a conversation duration of 4 minutes 30 Ad, with a conversation duration of 5 minutes also 30 Ad should be charged. For this reason, facilities must be available to prevent the tariff step switch from switching for the fifth minute after the fourth minute. This is done by a special spring 3oniiz, which also slides on a roller section that is designed in a special way. If the case occurs that further switching of the tariff tap changer is to be prevented for r minute, then when the magnet Nm responds, the spring 3oyzm falls into a hole and closes a corresponding contact. The following circuit then arises for relay E: Earth, contacts i5 c, Ziv, 28ü or 272t, switching arms of switching devices W, G, H, Dx or Dy in certain positions, zone rail IX, contact closed by the spring 30 nm , Winding I of relay E, battery, earth. The relay E closes its contact 76e and thus the following holding circuit for itself: earth, contacts 59 y, 75 x, 76 e, winding I of relay E, battery, earth. The relay E opens the contact 92 e and prevents the next passage of the switch arm ds, through position 3, the creation of a circuit for = the relay Z. Arrived -der switch arm ds, under the influence of the 5 "switch in the course of the next minute on contact 3, a circuit becomes effective: earth, contacts 59y, 82l, 8i f, switch arm ds2 in position 3, contact 93e, winding II of relay E, winding I of relay X, battery, earth relay X. Relay X opens its contact 9 1 x and thereby a point in the circuit for relay Z. Furthermore, opening contact 75x interrupts the holding circuit of relay E via winding I. Relay E therefore drops out Opening of contact 8 1 f, so that the circuit for relay X is also opened again at contact 93 e . Relay X drops out with a delay, so that it only brings its contact 91x to the rest position after a short time Rela is Z. is no longer possible because contact 81 f has been opened in the meantime. For this minute, the tariff tap changer has been prevented from switching.

For the present exemplary embodiment, it is assumed that the maximum duration of a connection is 12 minutes: after this time, the connection is forcibly disconnected. If the magnet Dm, which, as described, adjusts its switching arms by one contact every minute, has received its twelfth current surge in the course of the connection, the switching arm dm moves into its starting position; where the following circuit for relay T is closed: earth, contacts 59y; 82L, 8 1 f, switch arm ds, in the initial position, switch arm dm, in the initial position, winding II of relay T, battery, earth. The relay T closes the following holding circuit: earth, contacts 59y, 844 switching arm dm, in the initial position, winding of the relay T, battery, earth. The relay T switches on, which is not shown further here, a busy signal which is transmitted inductively on the line to the calling subscriber. Furthermore, the contact 97 t is closed, and when the switch arm ds moves into position 3 for some time, the following circuit is established for the relays M and S: Earth, contacts 59y, 821, 8i f, switch arm ds, in position 3, contacts 92e, 9i x, 941e 97t, winding III of relay M, winding I of relay S, battery, earth. Relays M and S respond in this circuit. The relay S opens its contacts 34s, 35 S and 36s and thus interrupts the connection to the called subscriber and at the same time releases the subsequent connection devices. The relay M closes its contact 9o m and thus the following holding circuit for the relay S: earth, contacts 59Y, 90m, 90, 974 winding III of relay i11, winding 1 of relay S, battery, earth. By opening the contact 65 m, a point in the circuit to be closed for the relay L by the @ 5 "switch is opened, so that further switching of the device Ds serving as a time switch is made impossible.

The calling subscriber, forced to do so by interrupting the connection, now hangs up his receiver, as a result of which battery potential is applied to the upper voice wire from the upstream connection device. Relay A is then again excited: battery potential on the upper voice wire of the upstream connecting device, contact ib, windings I and II of relay A, contact 15c, earth. The relay A responds in this circuit, opens its contacts 8 a and i3 a and closes the contacts 7 a., Iia and i2 a. The following new circuit is formed for the relay S via contact 12 a: earth, contacts i5c, i2a, winding II of the relay .S '. Battery, earth. By closing of the contact 7 a, a circuit is formed: earth, battery, winding of relay J, D winding of the relay, contacts 5p, 7a, bottom opening vein meter relay in the upstream connection means. Earth. In this circuit, the counter relay of the upstream connecting device cannot yet respond, but only the relay D responds. It should be noted here that the relay D is used as a test relay to check whether the upstream connecting devices are ready to: receive the counting current surges. The counting is initiated only when relay D comes, in the other case, for example if there is any fault in the upstream connecting device, an alarm is given by a thermal relay, which indicates this fault condition. It is now assumed here that the relay D responds and the contact iod is closed. Through the contact iod a short circuit is produced for the holding winding II of the relay Y, because now there is ground potential at both ends of its winding, namely i. Winding II of the relay, contact io d, iia, i 2 a., I 5 c, earth and 2nd contacts 14rmk (closed as long as the tariff step switch is outside the rest position), i5c, earth. As a result of relay Y dropping out and contact 42y closing, the following circuit is established for relay P: earth, contacts 42y, 69a, 73w, winding of relay P, battery, earth. The relay P opens its contact 5 p and thus a point in the circuit of the relay D, so that it drops out. Since the contact iod is now open, the relay B remains in the following circuit: earth, contacts i 5 c, 14 rmk, 16y, 17 b; Winding II of relay B, battery, earth. Relay P also closes its contact 48p and thus the following circuit: earth, contact 42y, winding 1I of relay R, contacts 401, 37s, 48p, 52 rmk (closed as long as the tariff step switch is out of its rest position), winding of magnet Rm, Battery, earth. In this circuit, only relay R can respond. By closing its contact 62r, relay R produces the following circuit for relay L: earth, contacts 42y, 63i, 62r, winding I of relay L, battery, earth. The relay L opens its contact 401, whereby the circuit for the relay R is interrupted. However, since its winding I is permanently short-circuited, this relay has a certain drop-out delay which prevents the relay L at contact 62r from dropping out prematurely. By closing the contact 411 the following circuit is now closed for the magnet Rm: earth, resistance Wie, contacts 411, 37s, 48p, 52rmk, winding of the magnet R »s, battery, earth. The magnet Rm receives a current impulse and causes the tariff step switch to switch back by one step. At the same time, the first counting current impulse is sent out in the following way: earth, battery, resistor Wil, contacts grm (activated by magnet Rm), 6 p, 7a, lower voice wire to the upstream connection device, where the counting relay Zr is energized and the counter of the calling station is advanced by one step. Relay R, which was interrupted by opening contact 401, drops out after a while and also opens the circuit of relay L at contact 62r. By opening the contact 41 1 , the pulse sent to the magnet Rm is terminated. The relay R in series with the magnet Rm is now switched on again via contact 40l, so that the relay is again made to respond, but not the magnet Rm Circuit for relay R interrupts, on the other hand, by closing contact 411, a current surge is sent to magnet Rm. The magnet Rm switches the tariff step switch back one step. At the same time, by closing the contact 9 rm, a counting current surge is again transmitted via the lower voice wire to the upstream connecting line. The interplay between the relays R and L and the magnet Rm continues until the tariff step switch has reached its rest position and the head contact 52 is open in this position. It can thus be seen that as many metering current surges are sent to the upstream connection device as the steps of the tariff tap changer have been introduced in the course of the connection.

The contact is also in the rest position of the tariff tap changer i-, l.rmk have been opened, so that the above-mentioned hold circuit of relay B is interrupted will. The relay B therefore drops out and thereby switches ground potential at the contact i b from the upper speech artery, thereby to the upstream connection device giving the signal to trigger. It becomes potential in the course of tripping the upstream connecting device removed from the c-core, so that the Relay C in the transmitter comes to waste.

If the subscriber hangs up his handset before the 12 minutes have elapsed, i.e. if there is no compulsory disconnection, the processes are as follows: By applying the battery to the upper speech artery after the caller has given the final signal, relay A in the transformer is energized, which is activated by closing its contact 12a creates the following circuit for relay S: earth, contacts 1 5 c, 12 a, winding II of relay S, battery, earth. The relay S in turn interrupts the wires leading to the subsequent prevention devices, so that these devices can be triggered. The relay D now again checks whether the upstream connecting device is ready to receive the counting current surges. If this relay responds, the relay Y is short-circuited via the contacts iia, 12 a and io d and caused to drop out. By closing the contact 4.2 y, a circuit for the relay P is then closed again.

The processes for transmitting the metering current surges are the same as just described.

It has already been mentioned that the hold circuit for relay B was interrupted after the counting current impulses had been transmitted and the contact i4rmk had opened. It has also already been mentioned that by opening the contact ib earth potential is switched off from the upper voice wire, thereby giving the signal to the upstream connecting device to trigger and the relay C in the transmitter falls. It should also be noted that the relay A is again brought to waste by opening the contact ib. When the contact i2a is opened, the circuit of the relay S is also interrupted, which thus brings its contact into the rest position. The resetting of the zone determination devices is now carried out in the following way: If a connection was established in which the switching mechanism W was also set, the following circuit is closed: Earth, contacts q.2y, winding II of relay R, contacts 40 1, 38 s , 39 c, switch arm w. In working position, winding of magnet W, battery, earth. In this circuit, only relay R can respond, but not also magnet W. Relay R closes the variously mentioned circuit for relay L at contact 62 r, which on the one hand connects the circuit of relay R (delayed falling, da Winding I is in a permanent short circuit) opens, on the other hand by closing the contact q.11 the following circuit for the magnet W closes: earth, resistance Wie. Contacts q.t 1, 38s, 39c, switching arm w2 in working position, winding of magnet W, battery, earth. In this circuit, the magnet W responds and switches its arms forward by one step. After the relay R has dropped, the circuit for the relay L at the contact 62 r is again interrupted, so that the magnet W also drops out again when the contact 41 1 is opened. The relay R is switched on again in the circuit described and brings the relay L to respond again. The interplay between the relays R and L and the magnet W continues until the switching arms of the magnet W have reached the rest position. Then a circuit is closed via the rest position of the switch arm w2: Earth, contact 42 y, winding II of the relay R, contacts 4.o 1, 38s, 39c, switch arm Wz in the rest position, switch arm g $ in the working position, winding of the magnet G, Battery, earth. In this circuit only the relay R responds, which in turn begins the interplay with the relay L. This continues until the switching mechanism G has also brought its switching arms into the rest position. Then the relay R is again brought via switching arm g3 into the rest position and switching arm 744 into the working position, which in interaction with the relay L brings the switching mechanism H into the rest position. In the same way, the other switching mechanisms Dx, Dy; Dm and Ds promoted to the rest position.

Claims (4)

PATENT CLAIMS: _ i. Circuit arrangement for counting different-valued connections in telecommunication systems, in particular telephone systems, characterized by a fee switching mechanism (tariff step switch TSch.), Which is stimulated by a time switch to advance at certain time intervals, the length of the respective progression being determined by control devices (cams, recesses) of the fee switching mechanism . the number of contacts (31 t111. 2 () Mit) to be connected electrically by zone determination devices (W, G, H, Dx, Dy) corresponding to the various tariffs (zone, day and night tariff). 2. Circuit arrangement according to claim i, characterized in that on each of the Contacts a set of control devices corresponding to a particular tariff acts. 3. A circuit arrangement according to claim i or 2, characterized in that after each incremental incentive or after certain incremental incentives of the timer, the fee switching mechanism is advanced until the contacts are influenced in a certain @ \ 'iron by the control devices of the fee switch. Circuit arrangement according to Claim 3, characterized in that the switching continues until the GebülirenscliaItwerk itself withdraws the contacts from the influence of the control devices. 5. Circuit arrangement according to claim i. characterized in that a number of counting current impulses corresponding to the length of the incremental switching of the charge switching mechanism is sent to the counter of the calling station. 6. Circuit arrangement according to claim i for systems with count storage up to the end of the connection, characterized in that the charge switching mechanism for the individual call time units is incremented by a certain amount and at the end of the connection a number of counting currents corresponding to the total amount of increments to the counter of the calling party Position is sent. ;. Circuit arrangement according to Claim 6, characterized in that at the end of the connection the toll switchgear is switched back to the rest position and a number of counting current impulses corresponding to the distance to be covered up to the rest position is sent out. S. Circuit arrangement according to claim 7, characterized in that the fee switching mechanism consists of a step switching mechanism which, when switching back to the rest position, sends out as many counting current surges (at the contact 9 rm) as steps are required to reach its rest position. 9. Circuit arrangement according to demanding 3, characterized in that after each movement dag incentive a testing device (Tm, Nm) is operative for causing in response to said control means further stepping of the indexing mechanism fees or not. ok Circuit arrangement according to Claim 9, characterized in that the fee switch mechanism is provided with cams or depressions which, after the test device becomes effective, cause the fee switch to be switched on or not. i i. Circuit arrangement according to claim i, characterized in that the toll switchgear consists of a roller divided into different sections and each section is provided with indentations in a very specific number and arrangement according to the respective value identified by it or the tariff. 12. Circuit arrangement according to claim ii, characterized in that switching means (W, G, H, Dx, Dy) indicative of the traffic direction are selected depending on the value or tariff of the connection established. 13. Circuit arrangement according to claim ti, characterized in that each section of the test device (N111, T m) actuated contacts (31 tm; 2911m) are opposite, which are bem # egt after each forward step of the switching device towards the roller and depending on whether the contacts collapse into a recess or strike the roller shell. either a "supernatural progression." processing of the fee switching mechanism is initiated or not. 1. 4. Circuit arrangement according to claim i, characterized in that auxiliary devices (30 nm) are provided, which for certain traffic directions or certain Tariff change the way in which the fee switching system is updated. 15. Circuit arrangement according to claim 1d., characterized in that the auxiliary devices take effect delay the motion stimulus by influencing the relay (E '). 16. Circuit arrangement according to claim i4., characterized in that the auxiliary equipment suppress the incentive to move. 17. Circuit arrangement according to claim z, characterized marked, da13 for connections in traffic directions, e.g. B. Local connections, for which no time counting comes into question, under the influence of the switching means for Traffic direction determination aids (O) a commissioning of the toll switchgear impede.