BE349935A - - Google Patents

Description

       

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  Telephone system.



   The present invention relates to telephone systems in general, but it relates more particularly to small automatic telephone systems commonly known as a private automatic office system.



   The object of the present invention is, in general, to provide new and improved circuit arrangements for an operator's station, and new and improved automatic switching apparatus which is primarily intended for use in systems. award-winning automatic desk.



   A particular feature of the present invention is

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 that by momentary actuation of a key clean individually at an incoming junction line coming from a main automatic office to a private automatic office, the telephone equipment of the operator, including a dial, is automatically associated with that particular junction line, after which the operator can maneuver the dial to initiate pulses in that particular junction line in either direction, the direction being determined by placing a common key for maneuvering the dial. This eliminates the need for a dial operating key and associated control equipment, for each incoming trunk line.



   Another feature of the present invention is that as a result of the new and improved circuit arrangements at the operator's station, it becomes practically possible to mount all the control relays associated with this station on frames located at any point. appropriate location away from the substation. The operator's station or cabin should contain only the necessary keys and monitoring lights, making it relatively small and inexpensive to manufacture and install.



   Another feature of the present invention relates to the provision of an improved connector selector repeater for providing so-called discriminating service controlled by means of a discriminating conductor. The connector can be taken in service either by a private automatic office subscriber or by the operator and when the connector is used by the operator, the distinguishing conductor serves as a signal conductor to operate a monitoring lamp. at the operator position.



   These and other characteristics, which are not specially mentioned and relate to the circuits and the way in which the connections are established and supervised by the operator, will be described in detail in the specification.

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 (cification which follows, with reference to the accompanying drawings including figures I, 2 and 3 which show by means of the usual circuit diagrams a private automatic office system) to be fully understood, these figures must be placed with figure 2 to the right of figure I and figure 3 below figure 2.



   Figure I shows the line of one of the subscribers of the private automatic office, namely the line of set A. This line ends, at the table of the private automatic office, in the individual line switch LS and it is accessible. for a group of connector selector repeaters using 2 ', 3 and 4' conductors. The LS line switch can be of any well known type, such as the known rotary type having no normal position and moving in only one direction. The LS line switch accesses, along with other similar line switches, to the connector selector repeater group by means of trunk lines one of which is shown and includes conductors 5 through 8 inclusive, terminating in connector 0 selector repeater.

   (In the following, the connector 0 selector repeater will be called simply connector 0.)
From a mechanical point of view, the connector C is of the well-known vertical and rotary type, comprising horizontal rows or stages of fixed contacts which are connected in multiple with those of the other connectors of the group. In a certain number of floors of the connectors, one has access to the lines of the subscribers of the private automatic office, containing the line of the station A 'as well as the line of the station A. access to one or more information junction lines to extend communications to the operator. One of these junction lines has been shown comprising the conductors 301, 302 and 303 accessible to the fixed contacts 98, 99 and 100.

   In another particular stage of the fixed contacts of the connectors, there is access to a group of outgoing junction lines extending to the automatic office.

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 main, one of these junction lines being accessible by means of connection comprising the conductors 202 ', 203' and 204 'terminating in the fixed contacts 88, 89 and 90.



  In the system shown, only particular subscribers of the private automatic office are authorized to have access to the main automatic office or to the operator, while the other subscribers of the private automatic office are limited to local calls within the primary automatic system. At the line switches of unrestricted subscribers, terminals 9 and 10 are connected by means of jumpers II ', while at the line switches of restricted subscribers, this jumper is removed. The connector such as connector 0 extends a connection or prevents the extension of a connection to one of the outgoing trunk lines or to the operator depending on whether or not a ground potential is supplied to the discriminating conductor 6 from the line switch by which it is taken in service.

   These operations will be described in more detail below.



   Figure 2 shows the TRO trunk line relay group for the outgoing trunk line to the main automatic office, comprising conductors 202 and 204. At the private automatic office, this trunk has two branches. A branch includes, as previously mentioned, accessible conductors 202 ', 203' and 204 'for the connectors through which calls are extended to the main office. The other branch comprises conductors 252, 253 and 254 terminating in the line switch LS ', figure I, through which calls from the main office to a subscriber of the private automatic office are extended, the fixed contacts of the line switch LS 'being in multiple with those of the other line switches.

   The line switch LS 'can be of the same type as the line switch LS.



   At the main automatic office, the trunk line

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 comprising the conductors 202 and 204 terminates in the individual line switch LS3 and is accessible for fixed connector contacts such as connector 03 in the well known manner. The LS3 line switch can also be of the same type as the LS line switch shown in Figure I, although the wiper for the distinguishing conductor is useful and in addition the connection with earth for the switch. conductor lower than the switching relay contacts is suppressed. The line switch LS3 as well as the other line switches of the trunk lines coming from the private automatic office have access to incoming selectors of which a selector S3 is shown.

   The selector S3 as well as the connector C3 can likewise be of the well-known vertical and rotary type.



  Main office automatic switches are not particularly relevant to the invention and are therefore shown schematically only. It should also be noted that the invention is not limited to an automatic main telephone system. The main office could also be a manual office. In the latter case, the trunk lines coming from the private automatic office would terminate in jacks in the well known manner.



   Inside the dotted rectangle in FIG. 3, the operator's telephone device TS and the various keys and lampas in the operator's cabin have been shown. For each of the junction lines between offices individually, there are 3 lamps and a two-way key, such as the LI, L2 and L3 lamps and the K key which are individually specific to the junction line between offices shown in figure 2. For each information trunk line (through which unrestricted subscribers can call the operator), there is a lamp and a key such as lamp L4 and key K 'of the trunk line. information comprising the conductors 301, 302 and 303. In addition to this equipment, there is a common key K2 for operating the dial.

   This key is operated in one direction

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 to start pulses through a trunk line to the main automatic office, and in the other direction to operate the automatic switches of the private automatic office. The operator's cabin is also equipped with the K3 key. When this key is actuated to the right, horn B is connected so as to sound during all incoming calls as will be described more fully below. When the key is turned to the left, a private automatic office connector switch that has been activated can be released without disturbing the rest of the call.



   The operator's telephone set TS is an ordinary office telephone set of the automatic type except that additional hook switch springs 399 are provided to control circuits which will be described later.



   There is shown in the left half of Figure 3 a group of relays, two of which are common equipment while the relay 300 controls the connection of the intelligence junction line comprising the conductors 301, 302 and 303 with the operator's telephone device. The conductors 301 ', 302' and 303 'represent another information junction line accessible for the fixed contacts of the connectors of the same stage as the junction line comprising the conductors 301, 302 and 303. The connection of this line of junction with the operator's telephone set is controlled by relay 3001,
This general description of the characteristics of the invention and of the necessary equipment having been given, we can now move on to the detailed description of the operation.



  The operations required to establish a communication from the main automatic office to a subscriber of the private automatic office will first be described. For this purpose, it will be assumed that a communication is desired with the subscriber of set A 'by a subscriber of the main automatic office and that a communication has been made.

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 extended to the private automatic office, by the junction line comprising the conductors 202 and 204, by means of connector 03, for example.

   As soon as this trunk line is put into service at the main automatic office, a ring generator is intermittently connected to the trunk line of the main automatic office and a direct current circuit is closed for relay 207) this circuit s 'extends from earth by means of the main office ringing generator, or from direct earth (depending on the particular moment when the connection is made), through conductor 204, contacts 214, resistor R3 , the winding of the relay 207, the contacts 217, the conductor 202, the winding of the bell interrupt relay of the connector 03, towards the battery.



  Relay 207 operates immediately and connects the earth potential to the release junction conductor 203 'at contacts 240, which immediately prevents this junction line from being taken in service by a connector in the office. automatic private. The resistance of relay 207 and of R3 is sufficiently high to limit the flow of direct current to such an extent that the bell interrupt relay of connector 03 is not actuated. When the ringing current is first applied to the trunk line conductors, the bell relay 209 of the private automatic office operates, its circuit enclosing the two trunk conductors and the contacts 214. The relay 209 closes at the armature. 245 a circuit for the signal relay 208.

   Relay 208 operates and closes a latch circuit for itself at contacts 244, which circuit encloses contacts 237 and 232, completes another connection to ground for release conductor 203 ', at contacts 241, and at contacts 243 it closes a circuit for the lamp LI of the operator's cabin, in series with the relay 314, this circuit also containing contacts 237 and 232. The lamp LI lights up, which indicates the attendant for the arrival of a call by this line

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 particular junction. When the operator is absent from the console or is busy with other functions, he can keep the key K3 pressed to the right. In other cases, the operation of relay 314 closes a circuit for horn B which, on sounding, further warns of the arrival of a call.



   When the attendant is ready to answer the call, he removes his receiver from his hook-switch and momentarily activates the key K to the right. This last operation, with the receiver removed, closes a circuit for the upper winding of relay 204, which circuit contains the contacts 399 of the switch hook, the contacts 310 and the contacts 315 of the key K. The relay 204 operates and performs the following circuit changes:
At contacts 227 relay 204 closes a latching circuit for itself by means of its lower winding, which circuit contains contacts 233, relay winding 313, and switch hook contacts 399.

   Relay 313 operates by means of this circuit and by separating contacts 310, it opens the initial energizing circuit of relay 204 and prevents energization of any other relay similar to relay 204, if the attendant inadvertently activates at this time. another key similar to the K key.



   At contacts 226, relay 204 closes a circuit for the upper winding of relay 206. Relay 206 operates and prepares a retaining bridge at contacts 239, and opens the initial latch circuit for relay 208 and also the circuit. - fired from lamp LI and relay 304 to contacts 237. Relay 208 is however kept actuated by means of the closed retaining circuit at contacts 225 by relay 204. Current flow from lamp LI and relay 314 - is however limited, because of the resistance RI, to such an extent that the lamp L 'is extinguished and the relay 314 is insufficiently energized to keep the contacts 311 closed. As a result, the lamp L1 is extinguished and that trunk B (if it is

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 circuit) stops sounding.

   Another result of energizing relay 204 by closing contacts 223, and closing contacts 235 and 236 by means of relay 206 is that common conductors 351 and 352 are connected to junction conductors 252 and 254. terminating in the line switch LS ', figure I. The conductors 351 and 352 are provided with a bridge formed by the telephone set of the operator and therefore the line switch LS' is forced to function. ner in the usual way and choose a free junction line accessible in its rows of fixed contacts.



   Another result of the operation of the relay 204 is the placement of a bridge between the conductors 202 and 204 of the outgoing junction line, by the closing of the contacts 222 and
230, this bridge enclosing the delay coil 312, the common conductors 361 and 362 and the relay 201. The resistance of the relay 201 of the delay coil 312 is relatively low so that the current flowing through the conductors of the line outgoing junction increases enough to cause the connector ring interrupt relay
C3 operates and disconnects the ring generator and disconnects itself from the junction conductors and completes the conversation communication to the operator.

   Relay 201 then operates by means of a current received through the rear bridge relay windings from connector 03 to the main automatic office, and at contacts 211 it closed a circuit for relay 202. Relay 202 operates. and completes another connection with earth for the release junction conductor at contacts 212, it opens the circuit of relay 207 and resistor R3 at contacts 214, and closes the circuit of lamp L2 at contacts 215, this circuit containing the springs 399 of the switch hook.

   The on state of the L2 lamp indicates the busy state of that particular trunk line. When operating, the relay 202 also closes a circuit for the. relay 203 to the contacts / 2I3, this circuit contains

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 mant contacts 219, the lower junction conductor
204 and the lower coil of the rear bridge relay of connector C. The relay 203 closes, by operation, a locking circuit for itself at contacts 218, independent of the lower trunk conductor, and by separating the contacts 217 and closing the contacts 216, it prepares a bridge which must include the relays 201 and 207 and must subsequently be placed between the trunk line conductors.



   As previously indicated, the line switch LS 'is forced to operate and choose a trunk line accessible for its fixed contacts and extending to a free connector as a result of the telephone set being. placed in bridge between the conductors 252 and 254. It will be supposed that the connector 0 is the one which was chosen if and when the connection is prolonged until this one, the line relay II operates in the usual way and closes the circuit release relay 12.

   The release relay 12 operates and prepares the pulse circuit at the contacts 28, and it connects the earth potential to the release junction conductor 7, at the location of the contacts 27. As a result, the potential earth is also connected to the determination conductor 6 by means of the contacts 33 and the contacts 34) this closes a circuit for the monitoring lamp L3 in the operator's cabin and also another retaining circuit for relay 208, these circuits extending through conductor 6, line switch LS ', conductor 253 to lamp L3, and through resistor R2, contacts 243 and 244 to relay 208. It as a result, lamp L3 lights up.

   The resistor R2 is currently in parallel with the resistor RI but the circuit of the lamp LI is still insufficient to cause the ignition of the lamp) the current flowing in the resistors RI and R2 is not sufficient either. to activate relay 314 even though this relay

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 can be operated since it works for all incoming calls.



   All the operations described so far after the operator has removed his receiver and momentarily actuated the key K to the right have been carried out automatically. The operator is then connected to the main automatic office and asks the subscriber calling the name or number of the person with whom he wishes to chat. After having received this information, the attendant activates the common key for operating the dial.
K2, to the right, and it then forms the number of the person called on the dial.

   Folding the klef K2 to the right simply opens the conversation circuit, from the operator's booth, back to the main automatic office, to prevent the calling subscriber from the main automatic office. '' hear the noises produced by the operation of the operator's dial.



   Under the effect of the formation, by means of the dial, of the first digit of the called number, the vertical magnet 20 of the connector
0 is actuated to advance the switch wipers 65
66 and 67 up to the front of the floor of fixed contacts where the line from station A 'is accessible (assuming that station A' is the called station). The series relay 13 operates in series with the magnet 20 and since it is slow acting it maintains its armor actuated during the vertical movement of the switch wipers. When the pulses produced by the formation, on the dial, of the first digit of the called subscriber cease, the relay
13 de-energizes and prepares the circuit for the rotating magnet at contacts 30.



   As a result of the formation of the second digit of the called number on the dial, the rotating magnet 21 operates and rotates the switch wipers until they engage with the series of fixed contacts terminating the called line. The relay 18 operates in parallel with the magnet 21 and since it is slow-acting it maintains its armature actuated during the entire rotary movement.

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 tif. If the called line is busy at this moment, an earth potential is present on the test contact 69, it follows that before the relay 18 has had time to de-energize, the occupancy relay 17 is energized by means of of the circuit containing the wiper 66, the contacts 59, the contacts 55 and the contacts 53.

   Relay IV closes, in operation, a locking circuit for itself at contacts 48 and prepares for contacts 46 in the usual manner the busy sound circuit, the latter circuit being closed as soon as relay 18 releases its contacts. armatures at the end of the pulses of the second digit by closing the contacts 53. The operator hears the busy sound in his receiver indicating that the called subscriber is busy, after which he informs the calling subscriber of the office main thereby and then frees the connection in the manner which will be described below.



   On the contrary, it will be assumed that the called subscriber is free at this moment, in which case no earth potential is present on the test contact 69 and the relay 17 is not actuated. When the relay 18 releases its armature at the end of this last series of pulses, the switching relay 19 is on the contrary actuated by means of its lower winding in the same way, the circuit of this winding s' extends from the earth which is on the release conductor 7 through the contacts 47, the lower coil of the relay 19, the contacts 54, the contacts 59, the wiper 66 the fixed contacts 69 to the battery through the coil of the relay. LS2 line switch switching relay in the usual manner.

   The switching relay 19 energizes and closes points in the talk circuit at contacts 59 and 62, it closes a latch circuit for itself by means of its lower winding at contacts 60, it grounds the contact test 69 by closing contacts 58 and it opens a point in the circuit of the rotating magnet, at contacts 61 The closing of contacts 57 and 62 also completes the ringing circuit which extends from the conductor 99 'to which direct land

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 and an earthed ring generator are connected alternately, then by the lower conversation conductor the bell of station A ', the upper conversation conductor and the upper winding of the bell interrupt relay 16, to the battery .

   The operator hears the ringing sound backwards in the usual way, which indicates to him that the called subscriber's line is free and that the called subscriber is receiving the signal.



   The operator does not have to wait on the line until the called subscriber answers. He may therefore prefer to disconnect his telephone set from this common! oation so that you can take care of other calls. To do this, he simply puts the receiver of his telephone device back on his hook-switch. This opens contacts 399, which in turn opens the circuit of the L2 lamp and of all the corresponding lamps of the other lines. junction, and opens the latch circuit of the upper coil of relay 104, the circuit enclosing the coil of relay 316. Lamp L2 goes out, as do the corresponding lamps of all other busy junction lines. This prevents unnecessary switching on of the occupancy lamps when the receiver is on its hook-switch.

   It should be noted that the indication given by busy lamps such as L2 is necessary only when the operator wishes to choose a free trunk line to make a call, in which case he withdraws his receiver, which closes the circuit of occupancy lamps for all occupied trunk lines. These operations will be described in more detail below.



   The relays 204 and 313 also de-energize when the operator replaces his receiver. The opening of contacts 223 and 228 of relay 204 disconnects the operator's telephone apparatus to remove it from the bridge between conductors 252 and 254, and by closing contacts 229, the bridge enclosing the winding lower of relay 206 is substituted for this connection. As a result of this bridge enclosing the lower winding of the relay

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 206, connector C is held in the actuated position. By opening contacts 226, the circuit of the top winding of relay 206 is opened, but relay 206 is kept energized by means of its bottom winding in series with line relay II of connector C.

   By opening contacts 222 and 230, the bridge enclosing the delay coil 312 between the junction conductors 202 and 204 is opened, and by closing the contact 231, another bridge enclosing the relay 207 and the contacts 216 and 239 and also the relay 201 (it should be noted that the relay 201 was also in the bridge containing the delay coil 312) is substituted for the previous one. The relay 201 remains energized and incidentally the relay 207 gets energized. By opening contact 225, the initial retaining circuit of relay 208 is opened. The relay 208 is however maintained by means of the circuit traced previously, enclosing the conductor 253 and the resistor R2.



   By de-energizing, the relay 313 again closes the contacts 310 which allows the operator to associate his telephone device with any other trunk line, by activating the corresponding key similar to the key K, A presented with the receiver on its hook, only the L3 lamp is on / which indicates that the called subscriber of the private automatic office has received the signal, but has not yet answered.



   When the called subscriber answers the call by removing his re-sensor, the bell interrupt relay 16 of connector C operates in the usual manner and closes a locking circuit for itself by means of its lower winding. to contacts 40, while it disconnects itself and disconnects the ring generator from the conversation conductors and completes the conversation communication by closing contacts 43 and 44.



  This operation also completes the circuit for the rear bridge relay 14 through whose windings the conversation battery is supplied to the called station. Relay 14 energizes and by opening contacts 33, it disconnects the earth potential of the

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 Determine conductor 6. Removing the earth from determination conductor 6 opens the hold circuit of relay 208, which allows this relay to de-energize, and also opens the circuit of lamp L3. the extinction of the L3 lamp indicates to the operator that the called subscriber has answered.

   After having removed his re- sensor, the called subscriber can start the conversation with the subscriber of the automatic main office, the conversation circuit extending through the conversation conductors in thick lines enclosing the conductors 5 and 8. , conductors 252 and 254, capacitors 262 and 264, and trunk line conductors 202 and 204 to the main automatic office.



   At the end of the conversation, the two subscribers replace their receivers on the respective hooks. Putting the receiver back in place at the called subscriber's station opens the circuit of the rear bridge relay 14 of connector C. This relay then de-energizes and again connects the earth to the determining conductor 6 by closing the contacts 33. As relay 208 is now de-energized and resistor R2 is short-circuited by contacts 242, placing earth on conductor 253 forces both lamps L'and L3 to light up and also causes the operation of relay 314. The switching on of these lamps at this moment indicates to the operator that the conversation is over and that the called subscriber has hung up his receiver.

   If the K3 key is pressed to the right, the B horn also sounds to provide an additional indication that a call is terminated (or that another call is waiting to be dealt with).



   It is also possible for the called subscriber to attract the attention of the operator by a flicker, when he wishes to talk to him, by actuating the switch hook in the usual manner.



  This actuation causes relay 14 to energize and de-energize in rapid succession, which forces lamps LI and L3 to flicker.



  In response to this signal, the operator can reconnect his telephone between the conductors of the trunk line by again removing his receiver and momentarily activating the switch.

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 key K to the right, which causes the relay to operate
204 which connects its telephone set between line conductors 252 and 254 as described previously.



   To end the communication after the called subscriber has replaced his receiver, as indicated by the on state of lamps LI and L3, the operator simply folds the key K momentarily to the left. This momentarily closes a circuit for relay 205. When energized, relay 205 opens the bridge enclosing the lower winding of relay 206, separating contacts 234. Opening of this bridge causes the release of the relay. line relay II of connector C, after which connector 0 returns to normal in the usual way. Relay 206 likewise de-energizes and opens the bridge between junction conductors 202 and 204 by opening contacts 239.

   The opening of this bridge allows the connector 03 of the main automatic office to be released in the usual way (the other switches of the main automatic office having become free when the receiver is hung up by the calling subscriber). Relay 207 and relay 201 deexist likewise. By de-energizing, relay 201 opens the circuit of relay 202 which also de-energizes and opens the circuit of relay 203. By returning these relays and relay 207 to normal, all the relays of the junction line relay group TRG are brought back to normal.

   By opening contacts 212 and 240e, the junction line is again marked free and is again ready for use with a view to extending another call to or from the main automatic office. -e. The separation of the contacts 215 opens a point in the circuit of the lamp L2 so that it does not light up when the receiver is removed from the operator, indicating that this junction line is free.



   As previously indicated, subscribers of the private automatic office whose service is limited to establishing communications with any of the other local subscribers of the private automatic office cannot complete communications.

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 to the main automatic office or call the operator ,.



  The other subscribers, on the contrary, whose service is not limited, can extend a connection directly to the main automatic office by first forming on the dial a special number such as the number 0 and then forming the dial on the dial. regular number provided by the indicator for the subscriber of the main automatic office or these subscribers can first call the operator and tell him the name and number of the subscriber with whom they wish to talk to the operator establishes then an indirect call by first obtaining communication with the desired subscriber from the main automatic office and then calling back the calling subscriber from the private automatic office.

   In order to derive these operations, it will first be assumed that a subscriber of the private automatic office such as the subscriber of set A wishes to establish a communication with a subscriber of the main automatic office directly without the assistance of the operator. . To this end, he removes his receiver and forms the number 0 on the dial, after which he forms the indicator number on the dial for the called subscriber of the main automatic office.



   Under the effect of the removal of the receiver at station A, the line switch LS operates in the usual manner and extends the connection to a free connector such as the connector C for example. When the connection is extended to connector C, line relay II operates and closes a circuit for release relay 12 which in turn operates and connects the earth potential to the release junction conductor 7 and prepares the pulse circuit in the usual manner.



  Under the effect of the formation of the number 0 on the dial, the vertical magnet 20 operates in series with the relay 13 and causes the switch wipers to advance as far as the fixed contacts of the tenth stage, oontacts through which we have access. outgoing branch lines of trunk lines extending to the main automatic office. Connector C has shaft springs 91 and 92 which close when the shaft is lifted up to face /

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 of the ninth or tenth stage of fixed contacts. Closing springs 92 close the circuit for relay 15 in series with the lower coil of relay 16. As a result, both relays 15 and 16 energize.

   The relay 16 locks itself by means of its upper winding to the release conductor by the closing of the contacts 40, it opens the ringing circuit an separating the contacts 42 and 45, and closes points in the conversation circuit by closing contacts 43 and 44. Relay K operates and connects the top and bottom windings of the rear bridge relay 14 independently of the office battery, by opening contacts 36 and 38 and closing them. contacts 37 and 39.

   By closing the contacts 34 before the relay 13 has time to return to normal, a circuit is closed, this circuit extending from the earth applied to the determining conductor 6 by means of the jumper II 'upside down of the LS line switch, by the springs 91, the springs out of nor male 93 (the springs 93 open and the springs 94 close each time the switch wipers leave by rotation the tenth series of contacts in the ninth or tenth floor), Contacts 31, contacts 63, through the windings of relay 17 to the battery. Relay 17 operates and closes a latch circuit for itself to the release conductor at contacts 48.



   A little after the end of the pulses of this first digit, the relay 13 de-energizes and by closing its contacts 32, it closes for the rotating magnet 21 a circuit which extends from the earth by means of the determining conductor 6. , by the contacts 35, the springs 91, the contacts 93, the contacts 32, the contacts 49, the contacts 61, the winding of the rotating magnet 21 towards the battery, the relay 18 also operating in parallel with this circuit. The rotating magnet then operates and brings the switch rubbers into engagement with the first set of contacts in the tenth stage and opens the circuits of relay 17 by opening contacts 63.

   Relay 17 then de-energizes and opens

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 the circuit of the rotating magnet 21 by opening the contacts 29 which allows the magnet 21 to de-energize and again close the contacts 63. If the first junction line accessible in the tenth series of fixed contacts is occupied, the earth potential is present on the test contact with which the wiper 56 is engaged. The result is that the relay 17 operates again before the relay 18 has had time to de-energize by means of the circuit which contains the wiper 66, the contacts 59, the contacts 55 and the contacts 63. By energizing, relay 17 again closes the circuit for rotary magnet 21 at contacts 49.

   The rotating magnet 21 operates again and rotates the switch wipers until they engage with the next set of stationary contacts. In this way, the rubbers of the switch are successively rotated until they are brought into engagement with the fixed contacts terminating a free junction line, which will be assumed to be the junction line comprising. - between conductors 22 ', 203' and 204 '.

   In this case there is no earth potential on the test contact 89 encountered by the wiper 66 and consequently the relay 17 is not re-operated. On the contrary, the switching relay 19 is energized by means of its lower winding after the de-energizing of the relay 18, from the earth located on the release junction conductor 6, by means of a circuit containing the contacts 47, the upper winding of the relay 19, the contacts 54, the contacts 59, the wiper 69, the test contact 89, to the battery by means of the resistor R4.

   The relay 19 operates and performs the circuit changes described above and extends the communication to the junction connectors 202 'and 2041,
As a result of the extension of the communication to the junction conductors 2021 and 2041, a circuit is closed for the line relay from the line switch to the main automatic office, this circuit terminating in the junction line between offices including connectors 202 and 204 in series with relay 201.

   Os circuit extending from the earth by means of oon

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 tacts 221, of conductor 204 ', by the bridge enclosing the windings of the bridge relay d (rear 14 (its upper winding and its lower winding now being connected to contacts 37 and 39), by the conductor 202', by the coil of relay 201, junction conductor 202, line relay coil of line switch LS3, to battery. In this circuit, relay 201 operates and closes a circuit for relay 202. Relay 202 operates and opens the AC bridge enclosing the bell relay 209 normally between the junction conductors at the location of the contacts 214, and closes a pdint in the circuit of the lamp L2 at the contacts 215.

   Each time the operator then removes his receiver, the L2 lamp comes on, indicating that this junction line is busy.



  Relay 202 also prepares, by operation, a circuit for relay 203 to contacts 213.



   Energizing the line relay from the LS3 line switch to the main automatic office, by means of the circuit shown above, starts the operation of that line switch to select a trunk line going to a selector. free tor such as selector S3. As soon as the line switch LS3 has chosen a free selector and extended the communication up to it, the circuit for the relay 203 at the private automatic office is closed, because of the earth brought by the coil. - lower element of the line relay of selector S3. It should be noted that there is no earth normally connected to the lower conductor 204 of the line switch LS3.

   When the latter circuit is closed, the relay 203 operates and closes a latch circuit for itself at the oontaots 218, and at the contacts 220, it connects the conductor 204 'to the junction conductor 204, which completes the extension of the communication. conversation to selector S3 at the main automatic office.



   All of the above operations, described after connector C has been taken into service, have taken place under the effect of the first digit formed on the dial by the calling subscriber. Under lef-

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 f the formation, on the dial, of the remaining digits of the called number, the selector / and other selectors and a connector are successively actuated in the usual manner to extend the call to the called subscriber, the connector C function- nant like a repeater to repeat the impulses in the junction line between offices.

   In this case, the relay 18 of connector 0 also operates during each series of pulses and by closing the contacts 52, it disconnects the bridge enclosing the rear bridge relay 14 and places a direct bridge between the conductors 202 '. and 204 '. This bridge is opened and closed intermittently under the effect of the numbers formed on the dial, following the operation of line relay II at the contacts, 26,
When a subscriber called from the main office answers the call by removing his receiver, he can start the conversation with the subscriber of the private automatic office. When the conversation is over, the two subscribers replace their receivers.

   Replacing the receiver at the private automatic office station opens the line relay II circuit which, in turn, de-energizes and opens the release relay circuit 12. The release relay 12. disconnects the earth of the release junction conductor 7 and, by closing the contacts 28 ', it closes a circuit for the release magnet which in turn energizes and returns the connector C, L' to normal. removing the earth from the release conductor 7 also opens the interlocking circuits for relays 16 and 19 which forces these relays to de-energize and open the bridge between conductors 202 'and 204' Removal of the bridge between these conductors release the switches of the automatic office in the usual way and also open the circuit of relay 201.

   Relay 201 de-energizes and opens the circuit of relay 202 which in turn de-energizes and opens a point in the circuit of lamp L2 at contacts 215. Relay 202 also opens, by de-energizing, the circuit of retained for the relay 203 at the contacts 213 and it removes the

 <Desc / Clms Page number 22>

 re of the connector 203 'to the contacts 212, which again places this junction line in the free state.



   As indicated above, a subscriber of the private automatic office (enjoying an unrestricted service) can, instead of establishing the connection himself, call the operator and ask him to set up for him communication to the main automatic office. The operations performed to call the operator and how the operator establishes a communication to the main automatic office and then calls the subscriber of the private automatic office again will now be described. For this purpose, it will be assumed that the subscriber of station A wishes to speak again to a subscriber of the main automatic office and chooses to obtain the communication the channel indicated above. To call the operator, the subscriber of set A picks up his receiver and in this case he dials the number 9.

   Under the effect of the removal of the receiver, the line switch LS again operates in the usual manner to choose a trunk line going to a free connector such as connector C for example. Under the effect of the formation of the number 9 on the dial, connector C functions to lift its wipers up to the ninth stage of fixed contacts and then it chooses a free junction line among those accessible at this point .

   These operations are all carried out in substantially the same way as described above when the connector C has operated to choose a connection line to the main automatic office, it should be noted that the springs of Shaft 91 and 92 close when the tree is lifted to the ninth or tenth floor.



   It can be assumed that the junction line comprising the conductors 301, 302 and 303 is the one chosen, the relay 19 initially operating by its upper winding by means of the conductor 303 in series with the lamp L4 and the relay 314. The lamp L4 s 'lights up and horn B sounds again (provided that the key K3 is folded to the right). The lighting of the lam-

 <Desc / Clms Page number 23>

 pe L4 indicates to the operator that a call has been extended to him; he then activates the KI key as soon as he is ready to take care of the call.



   To answer the call, the operator removes his receiver and activates the KI key. This closes a circuit which extends from the earth at the switch hook springs 399, through the armature 310, the KI key springs, the top coil of the relay 300, to the battery. Relay 300 operates and closes a latch circuit for itself by its lower winding in series with relay 313. Relay 313 operates and by opening contacts 310, it opens the initial energizing circuit of relay 300 and also prevents the operator from associating his telephone device with another trunk line at this time. In operation, the relay 300 also connects a direct earth potential to the release conductor 303, at the location of the contacts 306, and by opening the contacts 307, it opens the circuit of the lamp L4.

   By closing the contacts 308 and 309, the operator's telephone apparatus is bridged between the conversation conductors 301 and 302.



   The operator can then speak with the calling subscriber of station A and learn the name or number of the subscriber of the main office with which the subscriber of station A wishes to speak. After having obtained this information, the operator informs the calling subscriber that he is going to establish the communication for him and will call him back as soon as the communication is completed. The calling subscriber then replaces his receiver, which causes the release of connector C in the usual manner. The operator also replaces his receiver to disconnect his telephone set from the trunk line through which he was called. Replacing its receiver opens the springs of switch hook 399, which opens the circuit of relay 300 and relay 313.



  These relays then de-energize and return to normal. To complete the call to the desired subscriber of the main automatic office, the operator again removes his receiver and activates

 <Desc / Clms Page number 24>

 then momentarily the junction key of a free junction line, the actuation being done to the right (the free state of any junction line being indicated by the unlit state of the corresponding lamp to the L2 lamp after the operator has removed his receiver). It will be assumed that the junction line comprising the conductors 202 and 204 is free at this moment and is that which is chosen. Actuation of the key K momentarily to the right, while the receiver is removed, causes the operation of the relay 204 specific to the trunk line.

   Relay 204 operates and makes the circuit changes described above, including closing a latch circuit for itself in series with relay 3I3. and placing delay coil 312 in series with the relay. relay 201 between the output conductors 202 and 204 of the junction line. Closing the circuit for relay 206, a relay which operates with the same result as described above and in combination with relay 204, places the operator's telephone set, including its dial, between the conductors 252 and 254 of the junction line. Placement of the bridge enclosing relay 201 between junction conductors 202 and 204 causes relay 201 to operate in series with the line relay of line switch LS3 of the main automatic office.

   The relay 202 energizes as a result of the energization of the relay 201 and performs the same operation as that previously described, including the lighting of the lamp L2 by the closing of the contacts 215 and the preparation of the relay circuit. 203 to contacts 213. The line relay of the line switch LS3 operates and causes the line switch of the main automatic office to operate and extends the connection to a free selector such as selector S3 for example.

   Placing the operator's telephone set, with the dial, between junction conductors 252 and 254 initiates the operation of the LSI line switch which, while operating, chooses a free connector, but this operation / is at this time access-

 <Desc / Clms Page number 25>

 we only have a night out, as / will show below. After having actuated the key K momentarily towards the right, the operator actuated towards the left the common key K2 for operating the dial and then he dials the number of the subscriber called of the main automatic office.

   Folding the K2 key to the left disconnects the operator's telephone set, including the dial, to remove it from the bridge between conductors 252 and 254 by separating contacts 321 and 322, and it disconnects the delay coil 312 to remove it from the bridge between the junction conductors towards the main automatic office, by separating the contacts 323 and 324 and it replaces the operator's telephone apparatus, including the cadan, by closing contacts 325 and 326. Removing the operator's telephone set from the bridge between conductors 351 and 352 allows the line switch LS 'to return to normal, its wipers remaining however on the fixed contacts chosen last.



   The operator's dial is now contained in the bridge between the junction conductors 202 and 204 exiting to go to the main automatic office and automatic switches of the main automatic office operate successively under the effect of the numbers formed, on the dial, by the operator and extend the call to the called subscriber, in the usual manner.

   When the called subscriber answers, the operator can speak with him and inform him of what a person in the private automatic office wishes to talk to him, and the operator will call this person while the called subscriber. the main office keeps its receiver detached from the hook,
The operator then folds the key K2 to the right, which places the delay coil 312 in bridge on the outgoing junction conductors and again places his telephone set in the bridge on the junction conductors 252 and 254. The com - LS line mutator 'works again to extend the connection to a free connector such as connector C

 <Desc / Clms Page number 26>

 for example.

   It should be noted that the folding of the key
K2 to the right simply opens the talk circuit to the main automatic office in order to prevent the called party from hearing unpleasant noises produced by the operation of the operator dial while establishing the connection. to the subscriber of the private automatic office. The operator then dials the number of station A on the dial, which operates connector C as described above and extends a call to station A.

   After having completed the dialing setting for the number of set A and hearing the usual back ringing sound which assures him that set A has not become busy in the meantime, the operator can release his telephone set and the remove from this junction line as described for the previous communication. The operator is also informed when the subscriber calling at A removes his receiver by turning off the lamp L'and is also informed when this subscriber replaces his receiver, by turning on the lamps L'et L3. When the operator is thus warned, he discards the communication by swinging the key K momentarily to the left, which starts the release operation as described above.



   It remains to be mentioned that the subscribers of the private automatic office who are limited to the service inside the private automatic office and are not authorized to extend calls to the main automatic office, could not extend communications to the main automatic office. this office if they even tried to do it. The manner in which this restriction is achieved is not relevant to the present invention. However, the manner shown in the drawing can be briefly described. As mentioned previously, in order to limit the service of the subscriber of station A for example, it is simply necessary to remove the jumper II 'connecting the contacts 9 and 10.

   If then the subscriber of station A tries, after the 'jumper II' has been removed

 <Desc / Clms Page number 27>

 vé, to extend a communication to the main automatic office by forming the number 0 on the dial (an attempt is made to obtain communication with the operator by forming the number 9 on the dial), connector C operates again and lifts its rubbers up to the tenth (or ninth) floor. In this case, there is no earth potential on conductor 6, but relay 17 operates again when springs 91 are closed by lifting the shaft up to the tenth (or ninth) floor, this time in series with resistor R5 (before the series relay 13 has had time to de-energize).

   Magnet 21 is, however, insufficiently energized via resistor R5 (after relay 13 drops out) to actuate and rotate the switch wipers until they engage with the first set of contacts of the switch. floor in front of which the rubbers have been placed. As a result, no connection is established, but relay 17 remains energized and the subscriber who tries to establish the connection receives the busy tone.



  CLAIMS:

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

I) - A telephone system containing provisions for denying particular subscribers certain communications obtained as a result of a hunting movement of the final switch, in which a particular potential associated with subscriber lines to which such communications are permitted is intended to start the flushing movement of the end switch to establish these communications, 2) - A telephone system containing private branch offices where incoming calls are completed with operator assistance, in which access to the operator and the main office is denied to certain subscribers, the distinction being effected by means of a special conductor which also extends to the operator's station and is employed for <Desc / Clms Page number 28> operate a monitoring signal at this station. 3) - A telephone system containing private branch offices where incoming calls are completed with operator assistance, in which connections with the various trunk lines extending to an operator station are established at means of relays which are intended to be key operated at the operator station, so that the number of conductors extending to the station can be minimized. 4) -A telephone system according to claim 3, in which the relays serving to connect the various trunk lines are arranged to operate in such a way that only momentary actuation of a key is necessary, @ - A telephone system according to claim 3, wherein the interlock circuit extends through closed contacts when the operator's receiver is removed from the hook. 6) - A telephone system according to claim 3, wherein the latch circuit contains a relay intended to open, when energized, the excitation circuits of all the connection relays. 7) - A telephone system according to claim 2 or 3, wherein a trunk line circuit controlled by an operator is intended to have access to a local switch and the main office, a key for operating the dial, common to several trunk line circuits, being arranged to determine in accordance with its position, whether the impulses transmitted by the operator operate local switches or switches in the main office. 8) - A telephone system according to claim 7, wherein the trunk line circuit can also be taken in service by a subscriber by means of a local switch, the subscriber then controlling the switches of the main office. <Desc / Clms Page number 29> 9) - A telephone system according to claim 1, in which the final switch is set up to also have access to individual lines of subscribers for obtaining which no flushing operation of the switch is necessary. 10) - A telephone system according to claim 1, wherein the hunting operation is controlled by a relay which is also energized when a busy subscriber line is connected to transmit a busy signal to the calling party. . EMI29.1 II) - A telephone system according to claim IO, in which both the busy relay and the rotating magnet receive the operating potential by means of the distinction conductor. 12) - A telephone system according to claim II, wherein when auoun potential is not connected to the distinction conductor, the occupancy relay is energized by a reduced potential coming from another source, this potential being insufficient to make operate the magnet. 13) - A telephone system according to claim 2, 3 or 7, wherein each trunk line to the main office terminates there in a hunt switch whose operation is initiated by the passage of a current in one conductor only, while upon completion of the flushing operation a loop circuit enclosing the two conductors in series is completed. 14) - A telephone system according to claim 13, wherein a relay located in the trunk line circuit connected to a conversation conductor is intended to be exchanged under the effect of the passage of a current in a winding of the line relay of the digital switch taken into service, and then disconnecting itself from the talking conductor and closing a point in the talking circuit. 15) - A telephone system substantially as described in the specification and shown in the accompanying drawings. EMI29.2 . 1.J A. /.7 119¯AAn