BE429601A - - Google Patents

Description

       

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  Verwertung von gewerblichen Schutzrechten mit beschrànkter Hartung in Berlin W.35 (Germany) Improvements to telephone systems.



   The present invention relates to telephone systems and relates more particularly to semi-automatic telephone systems with main and secondary offices.



   When in such offices the calculation of the charge for communications is made at the main office either automatically by switching devices in the office or by an operator, then communications between subscribers of secondary offices which do not pass through the main office make it difficult to transmission of the data necessary for the calculation of fees to the main office.



   The present invention relates to the determination

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 of the talk time in such systems and this is achieved for communications, between subscribers of secondary offices, which do not pass through the main office by means of a time device which becomes effective at determined time intervals to cause the transmission of signals to the main office by a channel which does not include the conversation circuit between the subscribers.



   The invention is of particular importance in semi-automatic telephony systems for rural areas, in which communications between subscribers of secondary offices are established by an operator.



  An advantage of this system for known circuit arrangements is that after the establishment of such a communication and the removal of the plug by the operator all switches and junction lines not absolutely necessary for the conversation are free and available for other calls, with the result that the operator is completely eliminated from the call she has just established.



   The calculation of charges for similar calls, while taking into account the various charging methods, is possible without other devices since the operator can ensure the distance, for example, the zone from which the telephone number comes. the caller and the called party.



   The invention will be better understood from the following description relating to the accompanying drawings in which: FIG. 1 diagrammatically represents a rural network telephony system and FIGS. 2, 3 and 4 represent part of the circuits of office C shown in fig 1.



   According to fig. 1 offices B, C, D and E are secondary offices and office A is the main office

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 having an operator for the establishment and supervision of semi-automatic communications.



   The main office A with the operator position is connected to the secondary offices by the junction lines Li, L2, L3. The VA connection device at the main office is used to establish communication with the operator over the trunk lines. In the operator's position there is a panel of lamps with signaling lamps Zl, Z2, Z3, 24 which light up due to pulses transmitted by a transmitter on one of the lines L1 to L3 and which are received by a receiving devices El, E2, E3, E4 placed at the other end of the line. Office B is supposed to be completely automatic so that the subscribers connected to it can, by maneuvering their disc, establish any communication inside or outside their own office without the assistance of the operator.

   Since in this case the charge is determined automatically in a well-known manner the transmission of signals to determine the duration, to the operator is not necessary. A trunk line L5 connects office B to office D and trunk lines L4 and L6 connect offices B and C respectively to offices C and E.



   The operations constituting the transmission of the signal according to the various types of communications will now be considered.



   When, for example, a subscriber of office C wishes to establish a communication with the subscriber of automatic office B, this subscriber N2 picks up his receiver and actuates his magneto, the line finder ASC starts up and connects to the calling line, and the communication is thus routed through the repeater line UEC and the secondary connector MWC to the / junction L4. From there the call is then routed by the rep-

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 titrator UEB1 from office B and switching device VA1 to trunk line L1 and switching device VA from main office A. A call signaling lamp is illuminated at the operator position in a manner known as such. so that it is notified of the presence of the call.

   She gets in touch with the calling subscriber and asks him what he wants.The operator then establishes a communication with the desired subscriber N1 of office B so that the two subscribers are then connected as follows: subscriber N2 of office C, call finder ASC, repeater UEC, secondary line connector MWC, line L4, repeater UEB1, group selector GW, final selector LW, subscriber Nl. For this communication, the devices for determining the tariff at which the call must be counted and for sending the data by transmitting a signal relating to the duration, are placed in the repeater UEB1.

   Then a relay is energized under the control of a time device and causes the transmitter S1 to send a high frequency pulse on the line L1 at determined time intervals during the communication. The pulse is received by the receiving device of the main office A and causes the connection with the corresponding signal lamp Z1. The operator has the communication cards on hand in a locker near the Zl lamp, and can then record the duration of the conversation and thus determine the value of the charge from the transmitted signal.



   If a local call is requested in office C, for example if subscriber N2 of this office wishes to speak to subscriber N3 connected to the same office, then he picks up his receiver at his station N2 and operates his magneto to establish by same channel as in the first case, communication with the operator. The communication is then completed

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 by the transmission from the operator of a certain train of pulses which produces the operation of the direction selector RWC and the final selector LWC of the office C. The time device forming part of the repeater UEC then comes into play for cause a signal relating to the duration to be sent to the attendant.

   At determined time intervals the transmitter S3 of the office C is actuated and a high-frequency pulse is then sent on the junction line L4 and the link circuit b with the junction line L3. Via junction line L3 the receiving device E3 of the main signaling office A receives the impulse and connects the corresponding lamp / Z3. The attendant can therefore record the duration of the conversation for this communication on a record in the locker placed near this lamp. The already mentioned link circuit b connects the trunk line L4 to the trunk line L3.

   It is thus constituted that owing to the frequency filters or similar devices that it comprises, only the transmission of high frequency pulses is possible by this circuit to the exclusion of other switching operations so that the disturbances due to this circuit as to connection or conversation are removed with certainty. If the subscriber of the office C wishes to establish a communication with the subscriber N7 of the secondary office E the connection circuit passes, after the communication has been established by the operator, from, the subscriber N2 by the call seeker ASC, repeater UEC, direction selector RWC, trunk line L6, secondary line connector MWE, repeater UEE, direction selector RWE, final selector LWE, to subscriber N1.

   In the same way as for internal communications between subscribers of office C, the time device forming part of the UEC repeater then comes into play for these communications and ensures that the transmitter

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 S3 sends high frequency pulses at specified time intervals. The transmission of high frequency pulses takes place in the same way as for internal communications between subscribers in office C.



   If a subscriber of office C wishes to establish a communication with a subscriber of office D, the communication passes, after the various connectors have been established by the operator as follows: from subscriber N2 by the call searcher ASC , the UEC repeater, the line connector, secondary MWO, @ the trunk line L4, the repeater UEB1, the group selector GW, the repeater UEB2, the trunk line L5, the secondary line connector LWD of the secondary office D, the UEB repeater, the direction selector RWD, the final selector LWD at the subscriber N5.

   In the same way as for a communication between the subscriber of the office E with a subscriber of the office B, the transmitter Sl thanks to time devices included in the repeater UEB1 causes the sending of high frequency pulses on the line Ll to the operator at determined time intervals. These pulses are received by the receiver device E1 at the main office which connects the signal lamp Z1 in the usual manner.



   If a subscriber of secondary office E wishes to establish a communication with a subscriber of the same office, then after subscriber N6 has initiated the call, a communication is established with the operator by: subscriber N6, call seeker ASE, UEE repeater, secondary line connector MWE, trunk line L6, call finder ASC, from office C, repeater UEC, secondary line connector MWC, trunk line L4, repeater UEB1, switching device VA1,: Line of junction Ll, switchgear VA of main office A.

   The operator operates the RWE direction selector and the LWE final selector in the sub-office by transmitting certain

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 pulse trains such that the subscriber N7 is called and the conversation circuit between the two subscribers of the secondary office E is set. The signal relating to the duration is then transmitted to the operator by the transmitter S4 which is actuated by a time device included in the repeater UEE of the secondary office E after time intervals determined during the communication.



  The duration pulse passes from the emitter S4 to the trunk line L6, the link circuit c (this link circuit also has frequency filters which only allow the transmission of high frequency pulses), the line of junction L4, link circuit b, trunk line L3, to main office A. ' The high frequency pulses transmitted by the transmitter S4 therefore pass from office C through line L3 to the main office in exactly the same way as for local communications through office C. Since in both offices two communications can then ' simultaneously exist the operator must receive different signals relating to the duration of the calls.



  For this reason the transmitter S4 sends a signal of duration at a different frequency from that sent by the transmitter S3 of the office C. By means of the impulses transmitted by the transmitter S4 at a different frequency on the junction line L3, the receiver device E4 of the main office and not the receiver device E3 will be controlled so that the lamp Z2 will be connected and will correspond to this time signal.



  By this lamp, therefore, the duration signal for local communications from the secondary office E is indicated to the operator.



   If a subscriber of sub-office E wishes to speak to a subscriber of office C, communication takes place, as follows after setting selectors in office C by

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 operator intervention: subscriber N6, ASE call searcher, UEE repeater, MWE secondary line connector, L6 trunk line, ASC call searcher from office C, UEC repeater, RWC direction selector, final selector LWC, subscriber N3. For this communication, the duration signal is transmitted by the transmitter S3 of the secondary office C which is actuated at time intervals determined by the time device included in the repeater UEC. The duration pulses then pass from the transmitter S3 through the trunk line L4, the link circuit b, the trunk line L3, to the receiver device E3 at the main office.

   By means of the receiving device E3, the duration signal is transmitted to the operatry by the intermediary of the lamp Z3.



   A communication from a subscriber of secondary office E to a subscriber of automatic office B is done in the same way as the communication already described from a subscriber of office C to a subscriber of office B. The duration pulses are sent by the line L1 to the receiver device E3 of the main office by the transmitter SI of the office B which is actuated by a time device included in the repeater UEB1, and which operates at determined time intervals to send the pulses. By means of the device El of the main office, the signaling lamp Zl lights up.



   Likewise for a communication from a subscriber of the secondary office E to a subscriber of the secondary office B, the transmission of the duration signals takes place in the same way via the transmitter SI associated with the operation point of view of the device. at the time included in the UEB1 repeater. When the disc pulses have been sent by the operator, such communication is established as follows:

   subscriber N6, ASE call finder of sub-office E, repeater UEE, secondary line connector MWE,

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 junction L6, dbppal finder ASC, from office C, repeater UEC, secondary line connector MWC, trunk line L4, repeater UEBl from office B, group selector GW, repeater UEB2, trunk line L5, secondary line connector Sub-office D MWD, UEB repeater, RWD direction selector, LWD final selector, subscriber N5.



   Finally, the operations for establishing communications by unsubscribers from the secondary office D will be mentioned. If a subscriber of secondary office D wishes to establish a communication with a subscriber of automatic office B then after having initiated his call, he reaches the operator via the following circuit: subscriber N4, call seeker ASD,, repeater UED, connector branch line MWD, trunk line L5, repeater UED2, switching device VA2, trunk line L2, switching device VA of main office A.

   After the connectors have been operated by the operator's intervention, communication proceed as follows: subscriber N4, ASD call finder, UED repeater, MWD secondary line connector, N5 trunk line, UEB2 repeater, group GW, final selector LW, subscriber Nl. For this communication, the duration signals are transmitted to the operator by means of the transmitter S2 which is actuated to transmit pulses at determined time intervals by virtue of the time device included in the repeater UEB2. The duration signals pass from the transmitter S2 through the junction line L2 and are received by the receiver device E2 which connects the signals to the operator by lighting the signaling lamp Z2.



   If a subscriber of secondary office D wishes to establish a communication with a subscriber of secondary office C, this communication after the operation of the connectors by the intervention of the operator takes place as follows: subscriber N4, ASD call seeker of the office secondary D, UED repeater,

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 secondary line connector MWD, trunk line L5, repeater UEB2, group selector GW, repeater UEB1, trunk line L4, secondary line connector MWC in secondary office C, repeater UEC, direction selector RWC, final selector LWC, forgiven N3.

   By means of this communication, as in the previous case, the duration signal is sent by the transmitters S2 to the operator position and the transmitter S2 is actuated by the device at the time included in the repeater LEB2.



   A communication from a subscriber of the secondary office D to a subscriber of the secondary office E takes place in the same way as the communications described above. Likewise for this communication the duration signal is transmitted in the same way by means of the transmitter S2 by the junction line L2 to the operator.



   If several switching devices exist in the same office, then several communications can exist simultaneously, or if several trunk lines are established between two offices, several communications cannot be established simultaneously between these offices. It is therefore not only necessary to have a transmitter at different frequencies for each switching device, but it is also necessary to inform the operator how the signal lamps and the communications correspond to each other. For this purpose the individual switching devices are constructed such that the response of the desired subscriber and the removal of the plug causes the operation of the corresponding transmitter which will transmit a signaling pulse.

   In the attendant position, therefore, and after removing the plug, a lamp lights up immediately so that the attendant is warned by this lamp that a communication coming

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 to be established is under observation as to the duration of the conversation.



   Preferably, this start pulse will be transmitted each time to the operator in order to avoid memory effort and any cause of error.



   In fig, 2 and 3 the circuits framed in a rectangle in dotted lines / shown in fig, 1 in desk C, are developed in detail in these figures.



   At the start of a communication by a subscriber calling from this office, that is to say after the receiver has been picked up and the magneto actuated, a call relay AN (not shown), is energized and closes the circuit of the N relay by: 19an, 20p contact, N relay winding, battery, earth. Relay N attracts its two contacts 8n and 21n which are combined so that contact 8n is closed somewhat before contact 21n. If the AS call seeker is in position on the contacts leading to the calling line, the test relay P attracts immediately and by opening its contact 20p prevents the call seeker from rotating its brushes.

   If this is not the case, however, the circuit of the electromagnet Da of the call finder is closed by the contact 21n: earth, contacts 19an, 20p, 21n, 23r, electromagnet Da, battery, earth. The electromagnet Da attracts and opens its contact 22da from where it follows that the relay R attracts through the resistance Wi5. Relay R opens through its contact 23r the circuit indicated above for the electromagnet Da so that the electromagnet releases, the contact 22da is closed and a short circuit is established on l. winding of relay R which releases. The contact 23r is therefore closed after a short time so that the electromagnet Da of the call seeker is energized again.

   This interaction between the electromagnet Da and the relay R continues until

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 that the call finder finds the calling line and that the following circuit is closed: earth, brush dz5 in its rest position, contacts 9c, 8n, windings II and I of relay P, brush da3, conductor c to the battery which is not shown. Relay P attracts through this circuit, stops the call seeker by opening its 20p contact, keeps the calling line by disconnecting its high resistance winding II through the 7p contact, and extends the conversation conductors by closing the lp and 2p contacts and releases relay N by opening contact 20p. In addition, the battery is connected to the conductor c2 by the contact 45p.

   In this way the MWC secondary line connector (fig. 1) starts and stops when the conductors a2, b2 and c2 are found. The communication to the operator of the main office A is then established in the known manner, by the junction line L4, the switching devices of the secondary office B and the line L1. Thanks to a signal the operator is warned of the presence of a call while a signal is also transmitted to the calling subscriber by the conductor a2, the capacitors Col and Co2, the contacts 5p, 3k, lp and the brush. dal. The attendant then enters the communication by plugging into the call jack so that at the same time the potential of the battery is applied to the conductor a2 and that the relay J attracts.



  If the calling subscriber gave a call impulse by operating his magneto without having picked up his receiver, relay Y is not attracted, and consequently contact 40y is open and the battery is disconnected by contact 39kh and the resistance Wi9. Connecting the battery via Wi9 at this time would have the effect of 'connecting a signal to the operator to indicate that the calling subscriber is waiting with his receiver off-hook. Suppose that the subscriber has not picked up his receiver, the operator then calls the subscriber by maneuvering

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 the call key, that is to say by connecting the battery to the conductor b2 to energize the relay E through the contact 41y.

   By closing contact 106e (fig. 3) the following circuit is established for relay W: earth, contact 106e, winding of relay W, resistance W18, battery, earth.



  The generator of the inrush current RM is connected by the contact 33w to the conductor b of the subscriber line and its call device is actuated. The inrush current transmission lasts as long as the attendant presses the call key. When this key is released, relay E followed by relay W releases. When the subscriber picks up his receiver, the following circuit is established after releasing relay W: earth, battery, resistance W14, winding of relay X, contacts 28i, 4k, 3k, lp, dal brush, subscriber's bbucle, brush da2, 2p, 6k, 32w, 36e contacts, Y relay winding, earth.



  By this circuit the relays X and Y attract. If the subscriber picked up his receiver during the transmission of the inrush current, this circuit cannot be established since contact 33w is closed. Therefore relay X alone attracts and by closing its contact 108x establishes a short circuit for the winding of relay W. Relay W therefore immediately releases so that by closing contact 32w relay Y is also energized, relay Y by its contact 40y connects the potential of the battery through contact 39kh and resistance Wi9 to conductor b, 2 leading to the operator position. In this way, the operator receives a signal which warns her that the subscriber has answered.

   Relay J also closed the circuit of relay C via contact 67i: earth, contact 67i, winding of relay C, resistance Will, battery, earth. Relay C closes its own blocking circuit by its contact 55c and by contact 9c it closes the circuit for relay P (winding I) regardless of the position of the brush dz5 of the

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 device in time.



   The operator inquires about the subscriber's request and issues a first digit which attracts relay J.



  If local communication is requested, the RWC direction selector consisting of an auxiliary selector (with electromagnet De) and a main selector (with electromagnet Dh) is in the position corresponding to conductors a3, b3, c3. The electromagnet De of the auxiliary selector receives the pulses through the following circuit each time the relay J releases: earth, contacts 54pl, 1091, 114c, electromagnet De, battery, earth. When relay J is released for the first time, the following circuit is closed for relays V and Vl, relay V1 having a delayed release and remaining attracted during the pulse trains: earth, contacts 661, 65c, windings of relays V and V1 in parallel, battery and earth.

   The electromagnet De of the auxiliary selector carries a contact 43de by which it attracts the relay H by the following circuit: earth, contact 43de, winding of relay H, battery, earth. At the end of the first pulse when relay J is re-energized, the following circuit is established for relay K: earth, contacts 73i, 72h, winding of relay K, battery, earth. Relay K opens its contacts 3k, 4k, 6k, from which it follows that the conversation conductors are interrupted and the relays X and Y are released.

   After releasing relay Y, the following blocking circuit of relay K is closed: earth, contact 69c, brush of 2, in position on one of the first two contacts (the auxiliary selector being in position on this contact only for calls to subscribers local), Kh relay winding I, contacts 70k, 71y, relay K winding, battery, earth. The Kh relay also attracts by this circuit.



   At the end of the pulse train, relay J remains energized

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 for a certain time, so that the contact 66i remains open, and the relay V1 as well as the relay V are released. After releasing the relay Vl the following circuit is established for the electromagnet Dh of the main selector: earth, battery, electromagnet Dh, contacts 113k, l12vl, broom de3 in its working position, broom dh5 in its positive rest, contacts 110h, 54pl, earth. The electromagnet Dh attracts and closes its 44dh contact to attract the relay H. The relay H opens the circuit of the electromagnet Dh through the 110h contact and the electromagnet releases to open the 44dh contact and the relay circuit H.

   Contact 110h is closed again and the electromagnet excited by: earth, contacts 54pl, 110h, brush dh5 in its working position, electro-magnet Dh, battery, earth. The interaction between the free Dh electromagnet and the H relay continues until a line / is found and the dh4 brush has come to be placed on the contact on which is the earth potential given by the led brush and contact 55c. The following test circuit is then established: earth, contact 55c, brush led and brush dh4 in their working position, winding I of relay Pl, brush dh3, conductor c3, battery. The relay Pl by the 50pl contact is blocked by the following circuit: earth, battery, winding II of the relay Pl, contact 50pl, brush dh4 and led in their working position, contact 55c, earth.

   By closing the contact 49pl a direct earth is applied to the conductor c3 by the contact 55c and therefore the next connector which has been grasped is kept against any further grasping.



   The attendant then transmits the trains of pulses necessary to operate the next final selector, these pulses being repeated by relay J to the final selector via contact 28i and conductor a3. A new operation of the electromagnets De and Dh does not take place however

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 since the 54pl contact is open. When the final selector has reached the line of the desired subscriber, the inrush current is transmitted on the line as follows: / relay F is drawn when the contact 53pl is closed by: earth, contacts 53p1, 52x, 51v1, winding of relay F, battery, earth. The relay F closes its contact lo4f and thus establishes a circuit for the electromagnet Dz of the device in time by: earth, contacts 104f, 99kh, 102r1, 103z, electromagnet Dz, battery, earth.

   The electromagnet Dz moves its brushes dzl to dz5 by one step and at the same time it closes contact 101dz thus establishing the following circuit for relay Z: earth, contact lOldz, winding of relay Z, resistance Wi7, bat- terie, earth. The relay Z by the contact 103z opens the circuit of the electromagnet Dz so that it releases. The following blocking circuit is however closed for relay Z: earth, battery, resistance Wi7, winding of relay Z, contacts 96z, 97th, 99kh, 104f, earth. Relay Rl is attracted when closing contact 92z as follows: earth, battery, coil of relay R1, contacts 92z, 115s, 99kh, 104f, earth.



  Relay R1 closes its contact 100r1 and thus short-circuits the winding of relay Z which releases and also releases relay R1 by opening contact 92z. The circuit indicated above for the electromagnet Dz is then closed again by the contact 103z so that the brushes again advance one step. The electromagnet Dz and the relays Z and R1 react to each other to advance the brushes of the step switch. Each time the brush dz2 reaches common contacts, the following circuit of relay W is closed: earth, brush dz2 in position on the common contacts, contact 107f, winding of relay W, resistance Wi8, battery, earth. The relay W closes its 33w contact to connect the inrush current to the conductor b3 leading to the desired subscriber.

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   When the called subscriber answers a circuit is established for relays X and Y as follows: battery, resistance Wi4, winding of relay X, contacts 281, 47pl, brush dhl, conductor a3, loop of the called subscriber, conductor b3, dh2 brush, 48pl, 32w, 36th contacts, Y relay winding, earth.



   If the subscriber responded directly as soon as the inrush current was transmitted, relay X alone attracts, and by closing its 108x contact short-circuits relay M 'and ends the transmission of inrush current through contact 32w and causes pulling of relay Y. When opening contact 71y the above-mentioned blocking circuit for relay K is opened so that the conversation conductors are extended by contacts 3k, 4k and 6k and that the conversation between the two subscribers can begin. The relay F releases by opening the contact 52x so that the electromagnet Dz is not attracted any longer in the manner described by receiving the pulses by the contact 104f.



   If when the called subscriber returns the brushes dzl to dz5 are not in the rest position, then, when contact 71y is opened, the relay Kh which was previously indicated is energized in series with the relay K and does not not release since the following blocking circuit exists: dz3 brush in its working position, 46kh contact, Kh relay winding II, battery, earth, It follows that the 93kh contact is closed so that the earth is connected to the brush dz4.



   Consequently the following circuit is established for the electromagnet Dz: earth, battery, electromagnet Dz, contacts 103z,
102rl, 115s, 91z, dz4 broom in its working position, contact 93kh, earth. When the 101dz contact closes due to the attraction of the electromagnet, a circuit already indicated for relay Z closes, so that the opening

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 contact 103z opens the circuit mentioned above for the D.z. When opening contact 101dz, relay Z releases again so that by closing contact 103z the electromagnet Dz is energized again.



  This interaction between the electromagnet Dz and the relay Z 'continues until the brushes of the time device reach their rest position. The blocking circuit by winding II of relay Kh is then opened by brush dz3, so that the relay releases and, among other things, opens its 93kh contact from which follows the disconnection of the earth potential by the brush dz4 and a subsequent operation of the electromagnet Dz is prevented. Relay Kh has also closed its 39kh contact so that through contacts 40y, 39kh and resistor Wi9 and the battery, the potential of the latter is connected to conductor b2 leading to the operator position. This causes a signal to be transmitted to the operator to indicate that the conversation between the subscribers is established.

   Also she removes the plug from the jack, so that the relay J releases. Relays V and Vl thereby attract again through contacts 66i and 65c and the following circuit is established for relay S: earth, contacts 26pl, 25y, 24v, winding of relay S, battery, earth.



   The counting of the communication then begins and again requires the use of the mechanism - switch Dz. After the attraction of the relay S the following circuit is closed for the electromagnet Dz: earth, contacts 69c, 94s, 97th, 102rl, 103z and the electromagnet Dz, battery, earth.



  The brushes of the device in time are thus brought to the first contacts. Through contact lOldz, relay Z is energized again and interrupts the circuit indicated above for the electromagnet Dz through contact 103z. During

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 the opening of the lOldz contact, however, relay Z does not release, since in the meantime it has blocked itself by the following circuit: earth, battery, resistance Wi7, winding of relay Z, contacts 96z, 94s, 69c, earth . At the same time
Th contact 68z is closed and consequently the thermal relay / starts to heat up. After a certain time the 98ch contact closes thus establishing a short-circuit for the winding of the Z relay. The Z relay then releases and opens the thermal relay circuit through the 68z contact.

   After a determined cooling-down period, contact 97th is closed again and therefore the circuit mentioned above for the electromagnet Dz is closed again. The characteristics of the circuit involved in this operation are such that the time interval between the individual steps is of the order of one minute. The dzl broom is therefore brought to the fourth contact when the conversation exceeds three minutes. The following circuit is then closed for the AR relay: earth, 74s contact, dzl brush on contact 4, 75hr contact of an HR auxiliary relay, winding of the AR relay, battery, earth. When closing contact 18ar, the earth potential is connected to the conductor leading to the emitter S3, for the first time.

   The transmitter therefore begins to operate to transmit a high frequency pulse on the junction lines L1 and L3 (fig. 1) to the operator position of the main office, this pulse is received by the receiver device E3 which turns on the Z3 signal lamp. The operator can thus tell that the internal conversation in office C lasted more than three minutes. It indicates this on the communication file which is in a compartment corresponding to the Z3 lamp.



   The connection of the earth to the conductor leading to the emitter S3 through the 18ar contact lasts only one

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 short moment. When the AR relay is energized, the 77ar contact is closed and the following circuit for the HR auxiliary relay is also closed: earth, 74s contact, dzl brush on contact 4, 77ar contact, HR relay winding, battery, earth . The HR relay is blocked by its 76hr contact as long as the dzl brush remains on contact 4 (for example one minute). When the 75hr contact opens, the AR relay excitation circuit is open and thus the 18ar 'contact stops the pulse for the transmitter S3.



   The same operations take place when after three more minutes the dzl brush reaches contact 7 and after other periods of three minutes contacts 10 and 13.



  The operator then receives a duration signal at each three-minute interval and can thus note the duration of the conversation and therefore determine the charge for the call.



   By different wiring to the bank contacts of the time device, it is naturally possible without any supplement to modify the time intervals and adapt them to the existing tariff scale. For example if a fee is due for the first three-minute period and the subsequent fees are counted from minute to minute, then from contact 4 all the contacts must be wired.We must ensure that the HR relay releases at Each step, the transmitter S3 is therefore turned on to send pulses every minute from the device's fourth step in time.



   If for reasons given previously it is necessary to send impulses immediately after the called subscriber's answer, in order to eliminate cases of doubt and to immediately indicate to the operator by the signaling lamp which allows him to observe the conversation time that has just been established, then contact 1 of the bank contacts

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 of the time device must also be wired as it is shown in dotted lines so that immediately after the brush dzl has passed over the first contact a pulse is transmitted to the operator.

   The forced release of a communication is possible after a certain period of time, for example if the brush, dz5 reaches contact 13, that is to say if the conversation exceeds twelve minutes, then a short-circuit is established by the brush dz5 for the relay Y so that it releases. Releasing relay Y causes communication to be released in the same way as if the connected subscriber had given the end signal before the expiration of the twelve minutes. When releasing relay Y, contact 25y opens the circuit of relay S which releases immediately. When the contact 58s is closed, a short-circuit is established for the winding of the relay C by the NO contact 57y and therefore the relay C releases.

   Relay C opens contact 10c by which relay P is kept energized when brush dz5 leaves its rest position, and therefore relay P releases. By opening the contact 55c the blocking circuit for the relay P1 is also opened so that this relay releases. The following circuit is established for the electromagnet Dh: earth, contacts54pl, 110h, brush dh5 in its working position, electromagnet Dh, battery, earth.



  The electromagnet Dh attracts and closes its 44dh contact thus closing the circuit of the relay H which attracts and by the 110h contact interrupts the circuit indicated above for the electromagnet Dh which thereby releases and opens its 44dh contact to release relay H, so that when contact 110h closes, the electromagnet Dh is energized again.



  In this way the dhl to dh5 brushes advance to their rest position. The following circuit is then closed for the electromagnet De; earth, contacts 54pl, 110h, broom dh5

 <Desc / Clms Page number 22>

 in its rest position, de3 broom in its working position, lllc contact, De electromagnet, battery, earth.



  This electromagnet by its 43de contact reacts on the relay H and advances its brushes step by step to their rest position. Then the following circuit is established for the electromagnet Dz: contact 54pl, 110h, brushes dh5, des, both in their rest position, brush dz4 in its working position, contacts 91z, 115s, 102rl, 103z, electro -a @ mant Dz, drums, earth. The Dz electromagnet via its lOldz contact reacts on the Z relay and moves its brushes step by step to their rest position. All the connectors have thus returned to their normal position.



   If a subscriber of the secondary office C wishes to establish a communication with a subscriber of the secondary office E, the operations correspond to those of the establishment of a local call until the time when the operator intervenes in the communication.



   Depending on the direction in which the communication traffic is to take place, the attendant sends other trains of pulses from which it follows that the auxiliary selector De is placed in another position, the brush of 2 being currently in position on one of the last two contacts to which resistor Wi10 is connected. The main selector set Dh is then / in a position corresponding to that of the auxiliary selector De, so that the brushes dhl to dh3 are in position on the conductors a4, b4, c4 and thus are connected to the junction line L6 .

   The operator, by sending other trains of pulses, places the conductors of the secondary office E so that the desired subscriber N7 is reached by the final selector LWE (fig. 1);
When the called subscriber responds the X and Y relays attract in the manner described and in the same manner as

 <Desc / Clms Page number 23>

 previously described the transmission of the duration signals to the operator position begins, in that the time device Dz of the office C sends pulses to the transmitter at defined time intervals, which causes the lamp to be connected Z3 signaling of the attendant position by sending high-frequency pulses on the L4 and L3 junction lines.



   The communication is released in the manner already described.



   As previously described communications from a subscriber of secondary office E to a subscriber of secondary office C are supervised for duration by the time device of office 0. In such communications the calling subscriber from line N6 is terminated. by the call seeker ASE, the repeater UEE, the line connector MWE, the trunk line L6, to the call seeker ASC of the secondary office C, where the call relay AN not shown is attracted and closes its contact 19yr. The call finder operates as described until it finds the conductors al, bl, cl.



   The call of the operator, the establishment of the communication, the call of the called subscriber, etc., take place in the manner already described. The RWC direction selector works in the same way as for local communications, ie the brush of 2 of the auxiliary selector is placed on a contact to which the winding I of the Kh relay is connected.



   The establishment of the conversation takes place in the manner already described as well as the transmission of the duration signal to the operator of the main office and the release of the connection circuit.



   If the supervision as to the duration is not done on the local communications but only on the communications between subscribers of different offices, devices

 <Desc / Clms Page number 24>

 must be provided to differentiate between local and external communications and to prevent transmission of time signals to the main office operator in the case of local communications.



   Such a complementary device is shown in FIG. 4. In addition to the devices shown in FIGS. 2 and 3 an additional broom da4 - to the ASC call finder is then necessary as well as de4 to the auxiliary selector De.



  These two brushes are placed with their specially wired contact bank between the 75hr contact and the AR pulse relay. A circuit for the AR relay can only be established for a well defined position of the brushes da4 and de4.



   For local communications therefore, the da4 brush can remain for example on one of the two contacts 1 or 2. No circuit for the AR pulse relay can be closed so that the transmission of duration signals is suppressed.



   If a subscriber of office E calls a subscriber of office C, the broom da4 of the ASC call searcher is in position on contact 5 for which this broom establishes a bypass with respect to the broom of4 and is thus directly connected to the relay pulse AR. Consequently, the duration signals are sent.



   If a subscriber from office C calls and if he is connected to a subscriber from office E, broom da4 is in position on contact 3 and broom de4 on one of the two contacts 3 or 4.



  For these positions the pulse relay attracts so that for such communication the transmission of duration signals takes place.


    

Claims (1)

CLAIMS. 1. A telephone system comprising a main office and secondary offices and employing an operator at the main office to establish the calls requested by the subscribers of the secondary offices, in which in order to indicate the duration of the conversation of a communication which does not pass not through the main office, signals are transmitted at regular time intervals to the operator at the main office through a different channel than the conversation circuit. 2. A telephone system comprising a main office and secondary offices and employing an operator at the main office to establish the calls requested by the subscribers of the secondary offices, in which in order to indicate the duration of the conversation of a communication which does not pass. not through the main office, signals are transmitted at regular time intervals to the operator of the main office from an intervening secondary office, for communication and which is located closest to the main office. 3. A telephone system comprising a main office and sub-offices and employing an operator at the main office to establish the communications requested by the subscribers of the sub-offices, in which for a communication which does not pass through the intermediary of the main office, a time device starts operating at the end of the connection establishment and is used to produce the transmission of signals at regular time intervals to the main office, these signals being transmitted by a different channel not including any of the common devices used to establish the conversation circuit and serving <Desc / Clms Page number 26> giving a visual signal to the operator position to indicate the duration of the call. 4. A telephone system as claimed in claim 1, 2 or 5 in which the signals are transmitted to the main office by trunk lines connecting the main office to the sub offices. 5. A telephone system as claimed in claim 4 in which the signals are in the form of high frequency currents in order to avoid interference with other signals sent over the trunk lines such as talk currents and currents. analogues belonging to other communications. 6. A telephone system as claimed in claim 1 wherein the signals are transmitted under the control of a device in time. 7. A telephone system as claimed in claim 3 or 6 wherein in the event that more than two sub offices are connected in series and with the main office a timing device is placed at each of the sub offices. 8. A telephone system as claimed in claim 3 or 6 wherein in the event that two sub offices are connected in series and linked to the main office a timing device is placed in the sub office closest to the main office. A telephone system as claimed in claim 7 or 8 wherein operation of the device in time causes the operation of transmitting devices placed in the same secondary office such as devices in time to transmit a high frequency pulse to the primary office. . 10. A telephone system as claimed in claim 9 in which the transmitting devices are permanently connected. <Desc / Clms Page number 27> at the junction line going to the main office. 11. A telephone system as claimed in claim 7 wherein if the communication takes place between subscribers of the same office, the time device of that office is activated. 12. A telephone system as claimed in claim 7 in which if the communication takes place between subscribers of different offices, the time device placed in one of these two offices: the one which is located closest to the main office is activated. . 13. A telephone system as claimed in claim 7 or 8 wherein if the communication takes place between two offices which are not connected in series with the main office, the time device is operated in an intermediate office through which the communication passes. and which is closest to the main office. 14. A telephone system as claimed in claim 10 in which a plurality of trunk lines are provided between the main office and a secondary office with signals being transmitted over any one of the trunk lines. 15. A telephone system as claimed in claim 14 wherein the trunk line through which signals are transmitted for a particular call is fixed depending on the location of the caller and the called party. 16. A telephone system as claimed in claim 5 or 9 in which currents of high frequency and different frequency are used. 17. A telephone system as claimed in claim 9 in which a high frequency pulse is transmitted immediately upon establishment of the communication by the same transmitting apparatus which will then be used to transmit the signals. 18. A telephone system as claimed in claim 1, <Desc / Clms Page number 28> 2 or 3 in which the timing device comprises a rotary switch. 19. A telephone system as claimed in claim 18 wherein the rotary switch also serves to determine the duration of application and disconnection of inrush current for a call terminating in the office with which it is associated. 20. A telephone system as claimed in claim 1, 2 or 3 in which the forced release of the communication takes place after a predetermined time fixed in advance. 21. A telephone system as described herein and shown on the attached plans.