BE433987A - - Google Patents

Description

       

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 for: Device for establishing communications in telephone networks operating by means of selectors,
In telephone installations operating by means of selectors, communications are usually established with a correspondent whom one wishes to reach, under the influence of the selection pulses which the calling correspondent transmits by means of his number disk. telephone networks comprising several sets for establishing calls or central stations, a correspondent can also establish a communication with a correspondent in this way

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 coming from another set-up station or central station, In this case, the various central stations are assigned,

   devices which always carry out the desired communication by the shortest route, by switching and other maneuvers.



  On the other hand, devices are provided which automatically calculate the charge to be debited for a call and which, if necessary, influence, depending on the size of this charge, a counter of the calling party. These devices, which are used to perform switching and to calculate the charges, are controlled by pulses that the calling party sends to establish the call. In large telephone networks, comprising a large number of exchanges, the calling party must send, for the establishment of a call, a large number of series of pulses, corresponding to the characteristic number, comprising a large number of digits, of the desired exchange, and the call number, with large numbers of digits, of the desired correspondent.



  It is therefore desirable to also give correspondents the possibility of having the desired call established by a telephone operator. As the calling party, however, only selects a special call number, for example the number 00, for the call to a telephone operator, the devices which ensure the switching and which calculate the charges cannot come into action when one establishes a communication of this kind. consequently, the telephone operator is obliged to perform the maneuvers necessary for this purpose,

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The object of the present invention is to simplify the work of the telephone operator, so as to enable her to establish as many calls as possible.

     This result is obtained by the present invention by the fact that, in a telephone installation of the type described, the pulses emitted from the central unit for re-establishing a communication act, in the usual manner, on selections. current via a circuit which is in the direction of the communication being established, at the same time that they influence, via the circuit established between the calling party and the exchange, the devices installed in this circuit, used to calculate the charges, or the devices used to perform the switching, or both of these devices used to characterize the communication.



   By virtue of this characteristic of the present invention, it is also possible to use, in the communications established by the telephone operator of the table of a central office, the devices for calculating the charges and serving for the execution of the switches following the shortest route. which are used in the case of communications established in a fully automatic manner by the calling party. The operator's work is therefore limited to sending series of pulses used to establish the desired call.



   The present invention can also be used with advantage in installations, in which a telephone operator, for example that of an inter-city exchange, performs the establishment of the telephone.

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 communication requested not exclusively by the operation of selectors, but also by verbal agreement, via a telephone line, with another operator.

     If, in the route of the communication between the calling party and the telephone operator, devices which print on cards and automatically record the number of the calling party have been inserted for the calculation of the charges, the operator can transmit, during the call. retransmission of the request from this correspondent, of the pulses which influence the card printing apparatus by means of the communication circuit established between the calling correspondent and the exchange. The printing apparatus is prompted, by this transmission of pulses from the central office, to the recording of a characteristic sign which the operator also enters on the card corresponding to the conversation.

   When invoicing the charges, the form for this call, which bears the entries made by the operator, and which only contains information relating to the called party and the duration of the call, can then be compared and identified later, using to this special characteristic sign, with the conversation sheet supplied by the printing device and containing information relating to the number of the calling party. By this means, it is possible to imperatively register the number of the calling party who must be debited for the charge, so that the operator is not obliged to check if the number indicated by the calling party is correct, to establish a

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 special communication with these correspondents before establishing the requested communication.

   This therefore simplifies the operator's work and considerably reduces the time required for establishing communications, such as this over a long distance.



     The description which will follow with regard to the appended drawings, given by way of non-limiting example, will make it clear how the invention can be implemented, the particularities which emerge both from the drawing and from the text naturally forming part of it. .



   Fig. 1 shows the circuit diagram of a call finder at an end-of-line exchange.



   Fig. 2 represents the circuit diagram of the translator of an exchange at the end of the line, at the output end of a communication line.



   Fig. 3 represents the diagram of a translator of a central office of a network node at the arrival end of a communication line.



   Fig. 4 represents the diagram of the selectors of a central office of a network node.



   Fig. 5 represents the diagram of the translator of an exchange of a network node at the output end of a communication line.



   Fig. 6 represents the diagram of a transla- tor of a main exchange at the end of a communication line.



   Fig. 7 represents the diagram of an interconnection table of the main exchange,

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Fig. 8 represents the diagram of a row selector.



   Fig. 9 is an overall representation of the selectors of the various central stations of a telephone network.



   Fig. 10 is a general representation of the devices installed in different communications establishment stations or central stations.



   Fig. 11 represents the diagram of a table for establishing communications.



   Fig. 12 represents the diagram of a table for inter-city communications.



   The telephone network includes the main exchange IL \ (fig. 9), to which are connected
KA different central stations / located in nodes of the network. Several EA end exchanges are connected to each of these central offices. In the drawing of FIG. 9, only one of each of these exchanges was represented. If a party from the end exchange EA picks up his receiver, he is put into communication, via a call seeker AS, with a definition selector MLW1. If the correspondent wants to establish a communication with the correspondent of another exchange, he must first select the digit or number K = 0.

   These pulses influence the selotor MLW1, which upon reception of the fifth impulse, determines a seeker SW1 to
 EMI6.1
 11bre find a VLl communication line which sol'C /

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 by means of a control arm of the selector MLW1, the seventh, the eighth, the ninth and the tenth pulse of the series of pulses are then transmitted via the translator U1 to the communication line VL1. These pulses are collected in the central node KA by the translator U2 and are retransmitted to a definition selector MLW2.



   This MLW2 selector prompts a searcher selector SW2, when the first pulse is received, to seek a communication line VL2 which is free. By means of an arm of the selector MLW2, the fourth pulse, which is the tenth of the series of pulses sent by the calling party, is transmitted via the translator US to the line VL2. By this means, the translator U4 is occupied in the main exchange Hà.



   The second series of pulses that the calling party sends according to the call number of the set-up station or central office that he wishes, is transmitted via the communication lines VL1 and VL2 to the selector switch. GWI group of the HA main exchange.



   It simultaneously influences the MLW1 and MLW2 definition selectors of the EA end exchange
GW1 and from the central node KA The group selector / is set to the desired direction of communication. the following series of pulses regulate other group selectors not shown of the main central office HA,

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 EMI8.1
 who, if necessary, are looking for a line of communication
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 cation with central node via
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 from which the requested party can be reached.

   If the
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 correspondent calling then selects the number
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 (11: .1.1'-:; 1 of 1 # c,;: i? T x.:o 1 at node ": .. 1. Through which k12 ::: ', 3 read line d .. ; communication between its extrumity exchange 3, ', 6t the main exchange RA, the definition selector 1, ¯I12 connects a checker Sii4 which searches for a free GW4 group selector in the node exchange s : i, the communication line v12 and the commlnj cati on devices of the main exchange RA are released again. u translator U2 has been added a device D which, for calculating the charges L debit for communication. All the pulses that the calling party sends out act simultaneously on the device ùD.



  In the central A: 111C; 1 al Ri is a tacl. VP Ó'ct8.'blis:,.:; R: .. "nt oes conm-: uni cations, serviced
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 by a telephone operator.
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  If 1. C01'1'c :: E, jJor;: lémt wants to establish a comfi; ù- i; 1 ==; =. "Vion ,,, V.:0C the table, he selects, as second digit, a # er ,, # group selector G ',: 1 is as follows: set on a line PL going to table VB where - <L r "17. a :: '3 (; On (, <; éiOt-îr d ", group:;. 12. A researcher 3 ,, (l la ta'bl; branch 10. operator on the line that calls. ia operator iJut l '::: cuc.illi1' the correspondence dëmanetes: 1 :: 1: .. lt, Si 1: 'correspondent calling delirium quc; the telephonist has been given ::;, .. 2;

   Éo is placed the c O'ill1Uni cs. do we with

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 another correspondent, this operator sends the necessary series of pulses, these pulses are transmitted, via a conductor of the telephone line, to the group selector GW2 which is therefore set to a group selector GW2 direction of communication desired, But at the same time, the pulses are also transmitted, via another conductor of the telephone line, to the communication circuit established between the calling party of the end exchange EA and the VP table. These pulses influence an MLW3 definition selector of the U4 translator, as well as the definition selector
MLW2 of the node exchange KA and the device ZD for calculating the charges of the translator U2.

   If the operator selects the number characteristic of the direction of communication in which the communication of the calling party arrives, the selector MLW3 cuts off the communication circuit via the ... group electors GW2. And GW3. The MLW2 definition selector of the node exchange starts a finder SW4 which selects a free GW4 group selector. The other pulses emitted by the table are directed to this group selector GW4 which establishes, through other selectors not shown, communication with the requested party.

   The impulses emitted by the telephone operator, which are transmitted back in the communication circuit already established between the calling party and the table, consequently influence the charge calculation devices located in this circuit, as well as the charge selectors. definition, which allow communication to be established by the shortest route.

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    Editing is carried out so that in
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 the semi-automatic traffic, in which a telephone operator establishes the communication, the same phenomena take place as, .anoe; fully automatic traffic. In the execution example described in detail below, after the transmission of the last series of pulses the
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 line selector transmits, in the fully automatic operation in which the calling party sends all the series of pulses used for lt0tablj [; i-3m '.:; I1t of the COJJ1I: .ur: ication, a feedback signal which indicates whether the called party is free or busy.

   If the correspondent is free, this
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 : ¯i? Ali: return ation indicating that it is free, engages in the central call searcher dts1trémit> a disposition which triggers a signal for the calling party. As soon as the correspondent requested
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 n-hook, the el; O, ct'3ur line transmits in return a @@ cond signal, indicating that the called party wants to pick up his receiver, this second returned signal causes, in the translators, the
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 fe:;. 'n.stvT ::

   circuits (the conversation, and in the cï, call richer, the signal indication is interrupted. in: 2: mc t-.:nn;m, we influence the device for calculating ta :: as sn seen as check the duration of the call.



  If the called party hangs up his receiver, the line selector; sends a third signal back, indicating that the correspondent has hung up. This third
 EMI10.6
 returned signal viî ret0ür causes, in the translators, the cutting of the conversation circuits. In the call finder, a special device is activated which serves to determine the number of the corresponding calling party.

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 device transmitting, according to the number of this corresponding pulses to the tax calculator. Then the communication is cut off.



   -If the calling party has first established a communication with the table, a return signal indicating that this table is free is also transmitted when switching to a free table. As soon as the operator intervenes in the communication, the return signal indicating that the correspondent has unhooked his earpiece is transmitted, this signal closing the conversation circuits in the translators. Before the operator starts selecting the requested number, the third returned signal is transmitted. But this third return signal is transmitted in a different way from the signal which, in fully automatic communications, indicates that the party has hung up.

   It only causes the cutting of the conversation circuits in the translators, and prepares the transmission of the operator's adjustment impulses on the already established communication circuit.



  If the operator has finally established communication with the called party, the line selector sends the three return signals a second time, namely, the return signal indicating that the correspondent is free, the return signal indicating that the correspondent picked up and the Detour signal indicating that he hung up, ----------------------------

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 The return signal indicating that he has hung up, transmitted when the communication is terminated, causes, as in fully automatic communications, the determination of the number of the calling party and the termination of the communication.



   It is not necessary for the determination of the number of the calling party to take place after the conversation is ended, it could also be done at another time during the call, for example after the signal has been transmitted. indicating in return that the correspondent is free.



   If we use, for the calculation of the tax, instead of a device printing cards and recording all the essential data of the communication, a counting device according to the duration of the communication and the zone distance from the called party transmitting, using the call number of the exchange of the called party and the duration of the call $ 'a certain number of pulses to the counter of the calling party, it is not necessary determine the number of this calling party.



   In the case of the fully automatic establishment of the communication, the maneuvers which occur are as follows.



   If a party at the end exchange picks up his receiver, he energizes, in a way which is not shown, in the start line An1, the relays lNl, 1A1 and 1B1 of a free AS call seeker ( frozen 1). By this means, one causes a

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 known manner the adjustment of the arms of the call finder on the line of the calling party following which the relay 1C comes into action, including the contacts
1c3 and, 1c4 connect windings 1A2 and 1B2 to the reversing line.

   Via contacts 1c5, 1n2 and 1a1, relay 1E is energized. Contacts 1b1 and lel switch on the source AZ of alternating current, which transmits to the calling party a signal from the exchange ,, By means of contact 1n3 a circuit passing through line 1c1 has been closed, by means of which the MLW1 definition selector is occupied ( fig. 9) which is not shown in detail.



   When the correspondent wants to establish a communication with the correspondent of another
Irai, it starts by selecting the number K = 0
Relay 1A is de-energized by pulses by this transmission of pulses :. Contact lal retransmits the pulses on line 1a1. On the first impulse, relay 1B drops. Contact 1b2 short-circuits winding 1B2, so that, temporarily., Relay 1B can no longer come into action 4, contact
1b1 cuts the signal from the exchange.



   The pulses of the first series operate the MLW definition selector (fig. 9). On reception of the fifth pulse, this selector determines a free seeker SW1 to search for a free translator Ul (fig. 2 and 9). In the U1 transla-tower, the 2C relay is energized in a known manner.



   The definition selector closes, upon receipt of the

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 seventh pulse, a circuit which is used to retransmit the pulse to the translator Ul. The seventh pulse and the following pulses are collected by the relay 2A of the translator which, at each excitation, emits by means of the contacts 2a1 and 2a2, a ', pulse of alternating current via the communication line VL1.



   In the U2 translator (fig. 3), the alternating current pulses are collected by a 3J relay which actuates the 3A relay. Contact 3a1 retransmits the pulses via line 1a3. At the first impulse, relays 3C and 3E are energized, and they remain so for the duration of the communication. Contact 3c1 closes a circuit through the BD line which ends in a ZD device printing cards. The contact 3a3 simultaneously transmits the pulses to the line JD of the card printing apparatus, so that the recording apparatus is influenced accordingly.



   Via line 1d3, the pulses are transmitted simultaneously to relays 4A of the MLW2 definition selector (fig. 4) whose relay 4C is energized by the intermediary of a circuit passing through line 1c3. Contact 4c4 closes the circuit for the 4DS control electromagnet of the searcher SW2 which searches for the translator U3 of a free VI2 communication line. As soon as it has found such a translator, relays 4P (fig. 4) and 5C (fig. 5) are excited by line 1c4. Relaia 4P establishes continuity

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 of the conversation line .. The last four pulses of the first series which act on relay 4A causing the dm arms of the definition selector MLW2 to advance by four steps.

   In the fourth step, the arm dm4 establishes a link between line la.3 and line la, 4. The fourth pulse therefore influences the relay 5A of the translator U3 (fig. 5) which emits an alternating current pulse on the communication line VL2.



   In translator U4 (fig. 6), this alternating current pulse is picked up by relays 6J and 6A. relays 6C and 6E are energized and remain so for the duration of the communication. Contact 6c3 closes a circuit via line 1c5, through which the group selector GW1 is occupied, which is not shown in detail.



   The following series of pulses that the calling party transmits for the establishment of the communication successively cause the setting of the group selectors of the main exchange HA, and where appropriate of a node exchange KA. The last two series of pulses act, in the exchange of the called party, on a line selector LW (fig 8) which has been occupied by the group selector placed upstream, via line 1c8, so that the 9C relay is energized. The arms of the line selector are adjusted in a known manner, by an upward and rotational movement, to the contacts of the requested party.

   In the lifting movement the head contacts 9k are reversed, and in the rotational movement the contacts 9w are reversed.

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   At the end of the last series of pulses, a 9V relay, energized during the reception of the pulses, drops off with a delay and cuts through contact 9vl the holding circuit of a delayed relay 9E energized until then, During the The delay at the drop of relay 9E has elapsed, a circuit for the test relay 9P is closed. If the correspondent is free, this 9P relay can come into action. If, on the other hand, the correspondent is busy, the 9P relay is not energized. If more than one branch line goes to the correspondent's set, the line selector can be advanced automatically until it finds a free branch line. The 9A relay is then energized through the 1wd arm and causes the forward movement by an alternating operation in combination with the 9V relay.



   When the correspondent is busy and relay 9P does not come into action, it closes when relay 9E drops, via contacts 9w2, 9e4, 9p5, a feedback circuit via line lb8. We will suppose that line 1b8 is read by one or more group selectors directly to line lb5 (fig.6). In the feedback circuit, relay 6K energizes, and its 6k3 contact engages a 6L relay. For the duration of the delay of relay 6L, relay 6S energizes and emits a short pulse of alternating current, via the communication line VL2. In translator U3 (fig. 5), this pulse is picked up by relay 5E which first energizes, via contact 5el, relay 5Y, and then relay 5X.

   Via contacts 5c4, 5x1, 5yl and 5g2, a feedback circuit is closed via line lb4 which is connected to line 1b3. In the trans-

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 lator U2 (fig.3), relay 3K comes into action and, by influencing relays 3L and 3S, emits an alternating current pulse on communication line VL1. In translator Ul (fig. 2), relay 2E comes into action and energizes relays 2Y and 2X.



  Contacts 2x1 and 2y1 close a return signaling circuit via the lower conversation line which is connected to line lbl (fig.l). In the AS call finder, a 1M relay energizes and switches on the 1S relay. Contacts 1s1 and 1m3 short-circuit winding 2 of relay 1N. By the fall of this 1N relay, the communication is cut off. Via the contacts ln4 and les, the alternating current source BZ is connected, which source transmits to the calling party a busy signal.



   If, during the establishment of the call, a group selector could not find a free line ';' a corresponding feedback signal interrupts communication and activates the busy signal.



   If the called party is free and the 9P relay (fig. 8) can come into action, the 9p5 contact is reversed while the 9E relay has not yet dropped. Consequently, the return signaling circuit via line 1b8 is only closed for the duration of the delay in the fall of relay 9E. When relay 6K (fig. 6), which is connected by line 1b5 to line 1b8, comes into action, relay 6S transmits, as when sending the busy signal, an alternating pulse via the VL2 communication line. As soon as the feedback circuit has been cut again, the 6K relay drops out. For the duration of the delay in re

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 lais 6L, the 6S relay energizes again and sends a second alternating pulse on the VL2 line.

   On the other hand, the 6T relay energizes and maintains itself.



  In translator U3 (fig. 5), the first signal pulse indicating that the correspondent is free again energizes relays 5Y and 5X. The second alternating pulse of this signal causes the current to cut first in relay 5Y and then in relay 5X. The return signaling circuit via line Ib4 is therefore closed only for the duration of the time interval between the reception of the first and of the second of these pulses. When the 5Y relay drops, the 5T relay energizes and maintains itself.

   The same maneuvers are carried out in the U2 translator (fig.3) and the Ul translator (fig.2) as in the U4 and? 3 translators. Also in this case, the 3T and 2T relays are energized, and the return signaling circuit closes temporarily via line lbl.



   In the call finder (fig. 1), relay 1M comes into action temporarily. The 1S relay is energized.



  As soon as the 1M relay drops out, the lD relay is energized via the lsl and 1m3 contacts, this relay being maintained by its 1d2 contact and cutting the circuit of the lE relay. Contact ld3 removes the short-circuit of winding 2 of relay 1D, so that the latter comes into action again, for the duration of the delay in the fall of relay ls, the source VZ of alternating current is connected by through contacts 1d1 and 1s3, this source transmitting to the calling party a short signal indicating that the called party is free. Then the alternating current source FZ

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 native is connected by contacts 1s3, this source transmitting to the -calling party a periodic signal indicating that the requested set is free.



   In the line selector (fig.8), relay 9L has been energized in the meantime, this relay connecting a source of inrush alternating current to the line of the called party. As soon as the latter picks up his earpiece, relay 9U is energized, this relay cutting off the circuit of relay 9L and causing relay 9Y to be energized. The supply of the corresponding party is supplied via relay 9Y and winding 3 of relay 9A. Contact 9y5 closes a circuit for relay 9V, this circuit passing through a resistor in series, so that relay 9V comes into action with a certain delay. For the duration of the delay when the 9V relay comes into action, the feedback circuit is closed via line lb8 by contacts 9y4 and 9v4.

   At the beginning and at the end of this feedback signal indicating that the correspondent has picked up his receiver, an alternating pulse is sent on the VL2 communication line by the feedback relays 6K, 6L and 6S (fig. 6).



   When energizing the 6K and 6L relays, a circuit for the 6P relay closes which maintains itself. When relays 6K and 6L fall, relay 6G is then energized by this relay closing the conversation circuit by its contacts 61 and 6g2. In the U3 trans- lator (fig. 5), when the first pulse of the return signal is received indicating that the correspondent has picked up, the 5Y and 5X relays which close the return signaling circuit by linen-

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 intermediate line 1b4, and which energize the 5P relay. On receipt of the second AC pulse of this returned signal, the 5Y and 5X relays drop out and close a circuit for the 5G relay. Contacts 5g2 and 5g3 close the conversation circuit.

   The feedback circuit is interrupted. In translators U2 (fig.3) and Ul (fig.2), the same maneuvers are repeated. In the latter also, the 3P, 3G as well as 2P, 2G relays are energized.



   In the translator U2 (fig, 3), the contact 3g4 also prepares the circuit UD of the device printing the cards, this circuit being periodically closed by a contact u and causing the recording of the duration of the conversation. On the other hand, a contact 3g5 energizes the 4G relay in the MLW2 definition selector (fig. 4) which closes the conversation circuit. In the AS call finder (fig.l), the return signal indicating that the called party has lifted his earpiece temporarily causes relay 1M to be energized.



  Contact lm3 cuts the circuit of relay 1D which drops.



  For the duration of the delay in the fall of relay 1D, relay 1G is energized by means of contacts 1m4 and 1d4, and this relay maintains itself by means of contact 14. Contacts 12 and 1g3 close the relay. conversation circuit. The signaling indicating that the called party has picked up his receiver is maintained, in a communication that the calling party himself sets up to another exchange, until the 1D relay drops before the 1M relay. In urban communications, this signaling only causes the circuit to be closed by line lbl for such a short time.

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 that the 1M relay drops before the 1D relay.

   After the fall of relay 1M, it is then established, by contacts 14, 1d4 and 1m4, a circuit for the line Id on which the counter Z of the calling party is connected, -As a result, the counter is advanced by one. not.



   This advancement of the meter does not occur when the inter-city communications are established in a fully automatic manner, since the charges for these communications are recorded by the card printing apparatus.



   If, at the end of the conversation, the called party hangs up his earpiece, relays 9Y and 9A (fig. 8) drop. contacts 9y1 and 9y4 close the return signaling circuit via lines la8 and lb8. In translator U4 (fig. 5), the winding of relay 6J, connected to lines 1a5 and 1b5, is energized, while contacts 6i of this relay switch on relay 6A. Contact 6a4 cuts off the holding circuit of relay 6T, of which contact 6t4 cuts off the holding circuit of relay 6G. Contacts 6g1 and 6g2 cut the conversation circuit. By this means, the 6K relay is again applied to the feedback line lb5. It kicks in and the 6S relay sends an alternating pulse on the VL2 communication line.

   In the U3 transla- tor (fig.5), this feedback signaling pulse indicating that the correspondent has hung up his earpiece causes the 5Y and 5X relays to be energized. Contact 5-4 cuts off the holding circuit of relay 5T, of which contact 5t4 cuts off the holding circuit of relay 5G. Contacts 5g2 and 513 close a feedback circuit via lines !!. 4 and lb4. In translators U2 (fig.3) and Ul (fig.2), the same maneuvers are repeated.

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  In the latter also, the 3G and 2G relays are de-sexed, The UD circuit of the card printer cuts off, In the call finder AS (fig.l) the 1u relay is constantly energized by lines 1a1 and Ibl.The 1m2 contact closes a circuit of the 1Th thermal relay, which closes its th contact after a certain time, and thereby short-circuits the winding 2 of the 1N relay. By the drop of relay 1N, the alternating current source BZ is connected, this source transmitting a busy signal to the calling party. Contact ln6 cuts off the supply circuit of the calling party.



   As this calling party had established a communication with another exchange, and transmitted the figure K = 0 as the first digit, the MLW1 definition selector (fig. 9) activated contact K10 (fig.l). - bearing 3 of relay 1B is therefore now energized after the drop of relay IN. A circuit is established by the contacts 1c2, ln5 and lb4 for the starting relay of an RSW researcher selector, the engagement arms of which rs1 to rs3 remain engaged, in a manner known per se, not shown explicitly. , until the 1P relay trips. This tripping has the effect of exciting the winding 3 of relay 1s of the call finder, in the control circuit of relay 1P: this relay 1S has not yet dropped, being with delayed drop.

   The relay 1P starts, in a known manner and not shown in detail, another searcher selector RM, the contacts of which are connected to the lines 1d of the calling parties. The rm1 switching arm remains engaged until it reaches conductor 1d of the calling party. The rs3 engagement arm then establishes a circuit supplied by the alternating current source Q. The alternating current excites a re-

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 lais 1T which puts the researcher selector RM to rest and starts a pulse transmitter, not shown, which sends, in the known manner, pulses corresponding to the given position to the engagement arm 2m1.

   These pulses are transmitted from contact i, via the locking arm rs2. on line 1a1; they characterize the number of the calling party. As soon as the emission of the current pulses ends, a contact opens. This operation deprives the 1S and 1P relays of current. Contact 1s2 cuts the circuit on line 1c1 and thus cuts off communication.



   The translator Ul transmits to the communication line VL1 the series of current pulses that the contact i sends, according to the number of the calling party. Relays 3J and 3A of trans- lator U2 (fig.3) transmit the impulses to circuit JD of the card printer, so that the latter prints the number of the calling party.



  The connection devices which are located at the rear of the translator U2, to which the card printing apparatus is added, can be activated already beforehand.



   When the fully automatic communication was established by the calling party, the series of pulses were also transmitted to relay 4d of the definition selector.



  MENS (fig.4), whose contact 4a1 controls the drive electromagnet 4Dm of this selector.

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  If the correspondent selects the call number of the node exchange KA (fig. 9) in which the definition selector is placed, relays 4U, 4T and 4R are successively energized by means of arms dml and dm3. Contact 4t4 cuts the test circuit of researcher SW2. Contact 4tl connects the 4DL drive solenoid of seeker SW4 which searches for a free GW4 group selector in the node exchange, following which relay 4Q is energized. The communication line VL2 which goes to the main exchange HA is released, and the rest of the communication passes through the connection devices of the node exchange by the shortest path to the exchange or device. establishment of calls for the called party.



   During a semi-automatic communication established by a telephone operator, the following maneuvers take place. When the calling party picks up the receiver and selects the digit K - 0, this party is connected, as when establishing a fully automatic telephone call, via lines VL1 and VL2, to translator U4 ( fig. 6) of the main exchange AH. To call the table, the correspondent must second select the number 0.

   These pulses are transmitted through the communication lines and cause, in a manner which is not shown in detail, the positioning of the group selector GW1 (fig. 7) on the tenth row of contacts, in which it searches for a free PL line, so that the relay 70 is energized, The ten pulses also influence the AA relay of the definition selector MLW2 (fig. 4) in the node exchange, whose the dm1 arm is advanced on a contact on the-

 <Desc / Clms Page number 25>

 what is the 4W relay connected? This 4W relay energizes and closes a hold circuit.



   In the main switchboard HA, the circuit for a relay 7AN closes when the relay 7C is energized (fig. 7), this relay having the effect of making the searcher SW3 pass from a free table on the PL line which has been occupied by group selector GW1. After adjustment of finder SW3, relays 7P and 7T come into action. Contact 7p4 turns on an AL call light, and contacts 7p1 and 7p2 connect the conversation lines of this location to line PL. Contact 7p5 closes the circuit of relay 7V, which comes into action with a delay. Via contacts 7v2 and 7p2, a feedback circuit is closed via lines lb7 and lb5.



   This feedback signal is transmitted in exactly the same way as the feedback signal indicating that the correspondent is free transmitted after the setting of the line selector in a fully automatic communication. In the transmitters, the 6T, 5T, 3T and 2T relays are energized. In the AS call finder (fig.1), the 1D relay is energized and for the calling party engages the signal indicating that the called party is free.



   As soon as the operator activates the element used by the operator to ask the correspondent calling the number he wants (fig.7), the Abfl contact cuts off the 7W relay, which drops off with a delay. Via contacts 7w and Abf2, the feedback signaling circuit is again closed by lines lb7 and lb5 for the duration of the drop-off delay of relay 7W. This second feedback signal is transmitted @

 <Desc / Clms Page number 26>

 in the same way as the return signal indicating that the called party has picked up his receiver, and which is transmitted during a fully automatic establishment of the communication by the line selector.



  In translators, the 6P, 6G, 5P, 5G, 3P, 3G, 2P and 2G relays are energized. In the AS call finder (fig.l), the 1G relay is energized. In the call seeker and in all translators, the telephone circuits are closed by this means. Consequently, the telephone operator can collect requests from the calling party.



   If the operator wants to establish the requested call, she brings her request key back and activates the WS selection key (fig.7). Contact WS1 cuts the circuit of the 7V relay which drops out with a delay.



  For the duration of the delay in the fall of the relay 7V, a delay which is approximately 300 ms, the contact 7vl closes the return signaling circuit via lines lb7, lb5, 1a5, la7. This return signaling corresponds to the return signaling which is transmitted by the line selector during the establishment of a fully automatic communication, when the called party hangs up. However, as the return signaling lasts a certain time, the following special maneuvers occur in the translators.



   In translator U4 (fig. 6), relays 6J and 6A are energized. The 6T and 6G relays drop. The 6G relay cuts the conversation circuit and connects the 6K relay again to the feedback line lb5, so that this relay comes into action for the duration of this. signaling you back. Using the 6L and 6S relays,

 <Desc / Clms Page number 27>

 an AC pulse is first transmitted over the v12 communication line. if, when the signaling circuit on the table is cut, relay 6K then drops, contacts 6k4 and 6p5 cause the 6Z relay to be energized, which maintains itself. Relays 6L and 6S send a second signaling pulse back to the communication line.



   In the U3 translator (fig. 5), when the first feedback signal is received, the 5Y and 5X relays are energized, these relays causing the 5T and 5G relay circuits to be cut off.



  Via lines la4 and lb4, the feedback signal is transmitted. As soon as relay 5Y drops when receiving the second signaling pulse in return, relay 5Z is energized via contacts 5y4 and 5p5, this relay closing a holding circuit. In U2 and U1 translators (fig. 3) the same maneuvers are carried out as in U4 and U3 translators. In the AS call finder, it activates, upon receipt of the return signal, a 1M relay which closes a circuit for the 1F relay. This 1F relay is executed in the form of a step relay, and it begins by coming into action on the first step, in which it closes its contact lfll.

   As soon as relay 1M drops when the return signal of a duration of 300 ms has ended, relay 1F is energized on its second step, Contact 1f22 cuts off the holding circuit of relays 1G and 1S, so that the conversation circuit is cut. Contact lf23 short-circuits

 <Desc / Clms Page number 28>

 again winding 2 of relay 1B, By the fall of relay 1B, the circuit of relay 1F is also cut again.



  The actuators of the call seeker are now in the same state as before the start of the number selection by the calling party. In translators U1 to U4, the counting relays T, P and G are not traversed by currents. On the other hand, in translators U2 to U4, relays 3Z, 5Z and 6Z 'are energized.



   As soon as the operator now activates her number disc, the nsi pulse contact energizes the 7A relay. The contact 7al transmits pulses on the line la7 and consequently on the relay 8A of the group selector GW2 which is set. At the same time, the contact 7a2 transmits pulses via the signal lines 1b7 and 1b5 in return. In translator U4, relay 6S has been connected to line lb5 as a result of energizing relay 6Z.



  Relay 6S transmits alternating pulses via communication line VL2, To translator U4 (Fig. 6) has been added a definition selector MLW3 whose drive electromagnet 6Dm is influenced by the impulses of the telephone operator by means of contact 5a5 and moves the arm 6dm forward.



   In the U3 translator, the pulses are collected by the 5E relay and are retransmitted by the
1b4 and contacts 5e1 and 5z1 on line a / 1b3. In translator U2 (fig. 3), contact 3zl causes the 3R relay to be connected to line lb3. Contact 3r2 transmits the pulses via line 1d3 to relay 4A of definition selector MLW2. The 4Dm electromagnet moves the arms dml to dm4 according to the impulses emitted by the operator.

   As the 4W relay is energized, the dm2 arm is in action,

 <Desc / Clms Page number 29>

 
If the operator selects the call number of the node exchange KA, through which passes the communication which goes from the calling party to the table, the arm of the MLW5 definition selector (fig., 6) arrives above d 'a contact to which the relay 6U is connected, and the arm dm2 of the MLW2 definition selector (fig. 24) reaches at this point a contact to which the relays 45 and 4R are connected.



  When energizing relay 6U, contact 6ul causes the drive electromagnet 6Dm to switch off, so that subsequent impulses from the operator can no longer influence the definition selector. Contact 6u2 closes a circuit via line 1d5, so that relay 7U (fig. 7) is energized. The contact 7ul cuts the test circuit of the group selector GW2, so that the communication established through this group selector is again cut off.

   In the MLW2 definition selector (fig. 4), when the 4T relay is activated, a circuit for the 4DV drive electromagnet of the researcher SW4 closes, which searches for a group selector GW4 free (fig. 9) in the central node K4, after which the relay 4Q comes into action. The SW2 searcher test circuit remains temporarily closed via contacts 4W5 and 4n2. Contact 4rl prevents MLW2 definition selector from being further influenced by operator impulses.

   The operator's other impulses are retransmitted via

 <Desc / Clms Page number 30>

 
 EMI30.1
 contacts: .- a5, ZtS, 45 and 411 to the group selector, not shown, of the central node, Communication is established in this case, by the shortest path, by
 EMI30.2
 the intermediary or group selector of the node exchange. All the impulses which are transmitted by the telephone operator for the establishment of the communication
 EMI30.3
 Slowly transmitted by contact 3 ± 1 (fig, 3) also to circuit 6D of the printer ZD of the cards which stores the selected number.



   When, under the action of the operator's impulses, a line selector, such as for example the LW selector shown in FIG. 8, has been set to the contact of the called party, a return signal is sent, as in the
 EMI30.4
 fully automatic communication.



  If the correepoudant is busy, the circuit of i, ignalisation Dn return is then permanently closed by the i, rLernciire of the lines in the line selector, If the correspondent is free, the circuit of
 EMI30.5
 c.inàiiation [) il retour is only temporarily closed.



  If the communication established by the tele- nibt. passes ,, to the group selector G \ V2 (: iig, 7), the relay .ri :. ;,) :, t energized ;; 3.ns the feedback circuit. The contact 7m3 retransmits the signaling back on the line lb 7, 1b 5, through which it is transmitted in the manner described in
 EMI30.6
 AS call seeker (fi "1) which cuts off the communication if 1- called party is busy. As long as the phone;: '1J? 11 st ara not yet brought back u cl & cm ¯election, 5, the contact 7m5 also closes a circuit for the relay 'IL¯ which switches on by its contact 711 an occupancy lamp BL.

 <Desc / Clms Page number 31>

 



   If relay 7M is only temporarily energized by the return signal indicating that the correspondent is free, when the relay drops, a circuit closes for relay 7Q which maintains itself and which, by contact '1; 9.2, closes the conversation circuit and cuts the 7M relay.



   In translator U6 (fig. 6) when the first feedback signal is received after completion of the establishment of communication, relay 65 is energized, contact 6s4 of this relay bypassing relay 6Z. so that the latter falls,
At this time, the 6K relay is again connected to line 1b5.

   The other feedback signals are transmitted as already described. In the US translators (fig. 5) and U2 (fig, 5), the relays
5Z and 3Z are also disarmed by short-circuiting,
The transmission of the return signal indicating that the correspondent is free, that indicating that he has picked up and that indicating that he has hung up are therefore carried out in the same way as in fully automatic communications.



   If, during the establishment of the communication, by the operator's impulses, the definition selector MLW2 (fig. 4) has caused a switching, so that the communication with the called party goes through the searcher SW4 and the group selectors of the node exchange, the return signals transmitted by the line selector are collected by relay 4M which retransmits them via contact 4ml on line 1b3. When

 <Desc / Clms Page number 32>

 upon receipt of the first feedback signal
 EMI32.1
 after setting the line selector, signaling indicating whether the called party is free or busy, the 4m2 contact energizes the 4N relay which maintains itself.

   Contact 4n2 cuts off the test circuit of relay 4P, so that relay 5C of
 EMI32.2
 Lutz translator falls and cuts the retar6é5D relay circuit. For the duration of the 5U relay drop delay, the 5A relay energizes and transmits a long alternating pulse on the VL2 communication line. In the U4 translator (fig. 6), the relay 60 is short-circuited
 EMI32.3
 ûs c-e. done, 3t then the circuit of relay 6B cuts off. Contact G0 cuts off the occupancy circuit of selector such; g-rcupe mu which is at, eclanché. The communication line VL2, which goes from the node exchange to the main exchange, is thus released again.



   Also in the case of communications which pass directly through the selectors of the node exchange, the return signal indicating that the correspondent is free, that indicating that he has picked up, and that which indicates that he has hung up are transmitted to the caller.
 EMI32.4
 the <AS call sl'cheur in the same way as during lr0tèJ.blj:; CJëHL:; nt fully automatic communication.



  Under the influence of feedback indicating
 EMI32.5
 that it has picked up, it closes in all translators and 63ns the call seeker the conversation circuit. Under the influence of the return signal indicating that he has hung up, the device which determines the number to the calling party corrSp0110 and which transmits it to the printer ZD of the cards, starts up.

 <Desc / Clms Page number 33>

 



   The operator does not need to monitor the call she has established. Its activity is limited to collecting the requests of the calling party and to sending the selection pulses for the establishment of the requested call. Then. the operator is immediately free to establish a new call. For the calculation of the charges, the same devices are used, such as card printers or counting devices depending on the duration of the call and the zone of the called party, which are also used in established communications. 'in a fully automatic way.



   Instead of the line selector shown in fig. 8, one can also use known line selectors, allowing the operator to connect to a busy correspondent line and cut the existing call.



   In the exemplary embodiment shown in FIGS, 10 to 12, a calling party, of an end exchange EA, or of a node exchange KA, or of a main exchange HA is connected during the call. selection of the number K - 0, in a known manner, at the SGW selector of the ZA central unit. Communication lines connect the ZA exchange to other main HA exchanges. If the correspondent selects one of the digits 1 to 9 as the second digit, the SGW group selector is placed on a GW1 group selector which can occupy, through another group GW2, a VAV communication line leading to the desired main exchange.



   The correspondent can then establish a @ communication himself with the desired correspondent. In the way

 <Desc / Clms Page number 34>

 followed by communication, between the correspondent called
 EMI34.1
 lant and the central ZA, a card printer ùB has been inserted, which, under the influence of the impulses emitted by the corresponding 13; - <j> ī * 1.Pnt, records the charac- teristic number stiClL13 and the number d call from the desired correspondent: iii; = 1 qu;

   the necessary data about the duration of the conversation, and finally, when the conversation
 EMI34.2
 is completed, the zmrc.ro or correspondent calling.
If the calling party selects the number 0 as the second digit, the SGW switch on the exchange
 EMI34.3
 ià is set on a3 line which goes to table 1 By llir, t =; #. medial of line lc, relay 20 (fig. II). 'excites a known: aoi èr8 and closes the circuits for an r', lais 2.:;). and a r -lay 2, l = 1. Contact 2an2 closes the circuit that the letrc - :, 9r, nt drive 2.DS of a C, 0: c (} the 211r 8'.1 which r-.li3 the devices of establishment c1 : 'COfdy; unicaticill: \ from the table, 131 to the busy PL line;> 8.1' 12.:; - L ct: U1 'to the group; 3G: .ï.

   As soon as the arms of the finder 5 .. 'arrive at your cstl, th line, the 2T and 2S relays are energized through the dsc arm. The
 EMI34.4
 contacts 2+ 5t 22 establish the continuity of the conversation conductors of the table. The 2aS contact switches on an Opel AL bulb. Contact Kj34 closes the circuit for a relay: r. ar de 2V and contact 2a5 closes the circuit for a 2W r-t2rd relay. For the duration of the delay in attracting the 2V relay, a return signaling circuit via line 1b closes via contacts 2v2 and 2s2.

   This return signaling pulse causes, in the supply bridge of the calling party, the

 <Desc / Clms Page number 35>

   release of a device indicating that the. correspondent is free.



   As soon as the operator activates her call request key, the Abf3 contact cuts the 2W relay circuit. For the duration of the fall delay, the contacts 2wlet Abf2, again close a circuit which passes through line 1 ±. This relatively long return signaling pulse causes, in the supply bridge of the calling party, the cutting of the device signaling that the party is free, and re-establishment of the continuity of the conversation circuit. Likewise, in the translators which are on the path followed by the established communication, the conversation circuits close under the influence of this return signaling indicating that the correspondent has picked up his earpiece.



   From now on, the operator of the AP1 table can chat with the calling party and takes note of his requests. When the correspondent wishes to be able to establish a communication with another correspondent of the same network that the operator can establish by operating selectors, she activates his selection key.



   Via contact WS3, the 2V relay circuit is cut.



   For the duration of the delay in the fall of the 2V relay, the 2v1 and WS2 contacts again close a circuit via line 1b. This return signaling pulse causes, in the translators and in the supply bridge of the calling party, the cutting of the conversation circuits. The operator then actuates her selection disc, the nsi contact of which operates the 2J relay. Contact 2it sends impulses on line la, these impulses influencing the relay of a

 <Desc / Clms Page number 36>

 
 EMI36.1
 group selector 'G', -Contact 2i sends impulses to league 1b.

   These pulses are transmitted to the printer ZD of the cards (iig, 10) which is on the path of the communication established between the
 EMI36.2
 (; orl.'G,:;);} nè2nt calling: and the table, By 1 * setting of .. group selector: i! 'G'N by means of one of the digits from 1 to 9, it A communication is established with a group selector switch '! 2 or central' A (fig. 10) through which a communication line going to the desired exchange is then selected.



   If, finally, under the influence of the series
 EMI36.3
 ürin,: ;; ülbions, communication has been established up to party c ,,, manùé, a feedback circuit is closed for a short time, under the action
 EMI36.4
 of the line sc; lct ;; ur, via a conversation conductor, this circuit containing the relay 3M (ì3, Il) which is energized. Contact 2ni 1 short-circuits relay 2Q, while contact 2m2 closes a holding circuit for relay 2M, this circuit being cut again when relay 20 drops.

   During this time, the 2m3 contact closes a feedback circuit via the line Ib. This feedback pulse
 EMI36.5
 causes the activation of a device indicating that the correspondent is free, in the supply bridge of the calling correspondent. Contact 2m4 cuts the circuit of relay 2S, so that the operator at table Al'l is cut again. When the called party answers, the line selector sends a new signaling pulse back through one of the conversation conductors, this conductor now being connected, following the drop of relay 2Q.

 <Desc / Clms Page number 37>

 (fig. Il) to contact 2q1 on line 1b.

   This return signal indicating that the correspondent has picked up causes, in the translators and in the supply bridge of the calling correspondent, the closing of the conversation circuit. At the same time the ZD device printing the cards (fig. 10) is recorded indicating that the conversation is starting. When, finally, the called party hangs up his earpiece, the line selector permanently closes the return signaling circuit via line 1b. This permanent signaling causes in the translators the cutting of the conversation circuits.

   This also causes transmission, by an auxiliary device, of pulses corresponding to the number of the calling party to the card printing apparatus ZD, which records the number of the calling party. The call is then cut off in a known manner.



   If, on the contrary, the calling party wishes to establish a communication with a correspondent in another administrative region or in another country, communication which can only be established by a special exchange or a special BP1 table (fig. 10) of long-distance communication, the operator of the table AP1 selects after having operated the selection key WB, the number 0 and by this means sets the group selector FGW on a line going to a free FLW selector. These ten pulses are transmitted in the manner described, also by line 1b, by the communication path or route established between the calling party and the table AP1 and influence the printer ZD of the cards.

   The operator of the AP1 table then settles,

 <Desc / Clms Page number 38>

 by means of one or two other series of pulses,
 EMI38.1
 1s sel-ctor 3'Ll <on a BP1 table, to which the communication lines end at, large distance FL from the desired oirection. These pulses are also transmitted via line 16 to the card printing apparatus ZD.
 EMI38.2
 



  When setting selector i; L: '1, relays 0B and 0 are energized. 1,5 contact 12 closes the circuit alum relay 3E whose contact 3el connects relay 3A to line 1. A table BP1 has been added to
 EMI38.3
 EA device indicating numbers and co-ordinated by control ëiccbro-magnets Dl to D4. The circuits of these electro-airnants are successively closed by an operating switch, the electromagnet of which is
 EMI38.4
 command iJS is energized temporarily after each pulse.



   If the operator of the AP1 table then transmits other series which characterize the desired communication, for example the exchange of the correspondent requests, the 3V and 3R relays are energized, during each series of pulses transmitted via the lines. the
 EMI38.5
 et lal au r; 1 #; 1 & - 1.:.i Via the command position 1 ,. the contact 5a2 transmits the pulses to the control electromagnet D1. At the end of the series of pulses, the 3V and 3R relays drop successively
 EMI38.6
 with r = téHd. The contacts.: Rl and 5v2 temporarily close the circuit of the control solenoid SS which advances to position 2.

   By this means, the series of selection pulses can be transmitted to the rotation and drive electromagnets D1 to D4 of the number indicating device NA,

 <Desc / Clms Page number 39>

 
These series of pulses are also transmitted, in the manner described, from table AP1 to line 1b, and influence the card printing apparatus ZD.



   As soon as the control switch reaches the fifth position, a relay is energized.
3Z (fig. 12) whose contact 3z2 cuts the circuit. of relay 3E. For the duration of the drop-off delay of relay 3E, a feedback circuit is terminated via contacts 1z1 and 3e2 via line Ibl, so that the relay
2M from the FGW selector falls.



   By this means, the relay 2Q is de-energized in the manner described and the feedback circuit is closed in this way temporarily by the line 1b. Contact 3z3 (fig. 12) switches on the call lamp 3AL after the 3E relay has dropped. As soon as the operator of the remote communications table BP1 connects to the call line and actuates its switch AF, a delayed relay 3L is energized by means of the contact AF3.

   For the duration of the delay in attracting relay 3L, it closes, via contacts 311 and 1F2, a feedback circuit via line lbl which is connected after the drop of relay 2Q (freeze 11) on line 1b. This return signaling pulse determines the closing of the conversation circuits in the translators. The operator of the remote communications table BP1 can now chat with the calling party and can ask him to call back the number of the called party.

   By operating her switch VS, the operator can connect in a similar way.

 <Desc / Clms Page number 40>

 bare on the remote line FL, and call the operator at the other end of this line, with a view to establishing the requested call. When the call with the called party has been established, the operator at the BP1 des remote communications connects the correspondent calling to the remote FL line, and notes the start of the conversation on a conversation card. On this form, the operator also writes the number that has been set on the DN number indication device.



   When the communication is terminated, the operator at the BP1 table presses the cut key TrT. In the FLW selector, the 3P relay drops. Via contacts 3q4 and 3p2, a feedback signaling circuit is closed via line 1b1 which is connected to line 1b (fig. 11). This permanent return signaling causes, in the translators, the cut-off of the conversation circuits, Then, in the central office of the calling party, the auxiliary device is started which emits pulses, according to the number of the calling party. , to the ZD card printing device.



   In the embodiment described, the operator of the table AP1, who was called by the calling party by the selection of the digits KO, has established a communication with the table BP1 to which the lines FL of remote communication lead. direction, by operating the FGW and FLW selectors.

   The series of pulses necessary for this purpose were transmitted to the ZD device for printing the cards on the communication route included between the calling party and the table AP1 and caused a record hundred. By registering a number --------

 <Desc / Clms Page number 41>

 characteristic of two or three digits, it is already possible to indicate that the communication is intended for a specific district or country.

   as the telephone operator of the BP1 table makes a corresponding entry on her conversation file and the instant of establishment of the communication is retained both in the machine ZD for printing the files and by the telephone operator of the long-distance communications table, you can later identify the two conversation files.



   This identification is further facilitated by the additional characteristic which was transmitted simultaneously to the apparatus ZD for printing the cards and to the device NA for indicating the numbers of the table BP1 for establishing long-distance communications. .



   The operator of the AP1 table can also, if necessary, reach the BP1 table directly by means of a jack and a plug without it being necessary to operate the selectors for this purpose. there is then simply provided a device NA for indicating the numbers which is regulated by one or more series of additional pulses which are transmitted simultaneously to the card printing apparatus. The digits which appear in the device NA can contain information relating to the requested call, such as for example the characteristic number of the requested exchange.

   But they can also be used only for the numbering followed by the various communications, and consequently for the identification on the one hand of the conversation files established by

 <Desc / Clms Page number 42>

 the operator of the long-distance communications table, and, on the other hand, the indications recorded by the card printing apparatus. In any case, the telephone operator of the BP1 table can immediately establish the requested long-distance communication, because the number of the calling party is recorded in a precise manner by the printing apparatus ZD of the cards,
CLAIMS
1.

   Device for establishing telephone calls in telephone networks operating by means of selectors and comprising several central stations for establishing calls, in which calling parties are connected to selectors which put them into communication, under the influence of the selection pulses, with a communications establishment table, or with other selectors, for the automatic establishment of a communication, characterized by the fact that the pulses emitted from the table for the purpose of establishing a call act both, in the ordinary way, on selectors by a route which follows the direction of the call being set up, and,

   via the route established between the calling party and the table, on the definition devices, mounted in this route, and intended to calculate the amount of charges, or to connect other connection selectors, or to the both to the calculation of taxes and to this connection.


    

Claims (1)

2. Device according to claim 1, characterized in that at the central, in which the table is arranged, are added definition selectors which, when selecting the characteristic number of a central through which pass the route <Desc / Clms Page number 43> communication established between the calling party and the table, cut off or trigger the connection devices set by the operator again. 3. Device according to claim 1, characterized in that the devices for defining an exchange through which passes the route of the communication established between the calling party and the table, brahchent, under the influence the characteristic number of this exchange, selected by the telephone operator, of the communications establishment devices of this exchange in addition to the communication route, and transmit to these communications establishment devices the pulses emitted by the operator. 4. Device according to claims 1 and 3, characterized in that the definition selector control members cut off, under the influence of a return signal transmitted after setting the line selector to the requested party, the communication established between the definition selector and the table. 5. Device according to claim 1, characterized in that when establishing a communication with a table, return signals are transmitted in the same way as when establishing a communication with the requested party. , 6. Device according to claims 1 and 5, characterized in that during the occupation of a free table, there is a transmission of a return signal indicating that the correspondent is free, and which causes the transmission. , by researcher's organs <Desc / Clms Page number 44> call, a signal indicating to the calling party that the party is free. 7. Device according to claims 1 and 5, characterized in that the table is sent, when collecting a request for establishment of communication, a return signal indicating that the correspondent has picked up and causing the closure of the circuit. conversation by the organs of the communication route established between the calling party and the table, 8. Device according to claims 1 and 5, characterized in that before the transmission of selection pulses, the table transmits a return signal which causes the opening of the conversation circuits by the operating members of the communication route established between the calling party and the table, but which prevents an interruption of the communication. 9. Device according to claims 1.5 and 8, characterized in that the third return signaling transmitted before the transmission of the selection pulses by the table is different from the return signaling transmitted when the requested party hangs up. 10, Device according to claims 1, 5, 8 and 9, characterized in that the third return signaling emitted by the table prepares maneuvering members of the translators of the route of the communication established between the correspondent. caller and the table, for the transmission of the selection impulses emitted by the telephone operator. <Desc / Clms Page number 45> 11, Device according to claims 1 and 5, characterized by the fact that the selection pulses emitted by the operator are transmitted by the same conversation line of the route of the communication established between the calling party and the table, that the feedback signals. 12. Device according to claims 1 and 5, characterized in that in the semi-automatic communications established by the telephone operator, the control units of the communication route established between the calling party and the table are influenced two times. once by the same succession of signaling em back- 13, Device according to claim 1, characterized in that the devices which calculate the taxes are added to control devices making it possible to record or collect the selection pulses emitted by the telephone operator. 14. Device according to claims 1 and 13, characterized in that the devices which record or calculate the charges record the number of the calling party after setting the line selector to the called party. 15. Device according to claim 1, characterized in that one adjoins the definition selectors. control devices which are influenced during the establishment of a communication with the table, and which allow a different operating mode under the influence of the selection pulses emitted by the telephone operator. <Desc / Clms Page number 46> 16, Device according to claim 1 for telephone systems comprising devices printing cards, characterized in that the table called by the calling party transmits. during the retransmission of the request from the correspondent to a table which can establish the requested long-distance communication, pulses which influence, through the intermediary of the communication route established between the calling correspondent and the table, the plug-in printer connected to this route. 17. Device according to Revandioation 16, characterized in that the pulses emitted by the table establish a communication route with the requested long-distance communications table. 18. Device according to claim 16, characterized in that the pulses emitted by the table influence a device indicating the numbers to the table for establishing long-distance communications. 19. Device according to claim 16, characterized in that pulses are emitted corresponding to the characteristic number of the requested communication. 20, Device according to claim 16: characterized in that pulses corresponding to the current number of the established communication are emitted.