CH95435A - Semi-automatic telephone system. - Google Patents

Description

  

  Semi-automatic telephone system. The present invention relates to a semi-automatic telephone installation in which calling lines belonging to a central office are connected by means of automatic switches to operator positions of this office, the control of the connection between the calling line. and the called line being under the control of these operators.

   According to this invention, the installation comprises circuits and apparatus by which calls received by the central office can be transmitted temporarily and automatically to the operators of a large remote central office so that during the hours when the first office is not 'is not served, for example during the night; incoming calls are forwarded to the large office to be answered.



  The drawings give, by way of example, one of the embodiments of the invention; fig. 1 shows on the left side a subscriber line and a primary line finder and on the right side a core circuit comprising a secondary line finder and a primary group selector;

      fig. 2 shows the equipment of an operator position corresponding to the cord circuit of FIG. 1, only the components necessary for understanding the invention having been shown; fig. 3 shows on the left side a common arrangement controlling the change required to switch from day to night service in the envisaged central office, and on the right side the arrangement controlling the required change at the remote main central office; FIG. 4 shows a modification in which secondary searchers for special lines are employed for the night service;

   fig. 5 shows a modification by which the establishment of the night service is done automatically when all the operator positions of the central office envisaged are unoccupied, while this service is automatically canceled as soon as one of the positions is occupied by an operator; Fig. 6 shows a cable circuit used only during night duty at the remote main central office. .



  Fig. 2 should be placed below fig. 1, and these two figures represent, together with the part of FIG. 3 placed to the left of the vertical dotted line, devices and circuits belonging to the envisaged central office which is not served during the night. In the following, this office will be referred to as the small central office in order to easily distinguish it from the remote main central office.

   The part placed to the right of the vertical dotted line in FIG. 3 belongs to titi main central office dis tant which must serve during the night calls received by the small central office of FIGS. 1 and 2.

   On the left part of fig. 1 shows the arrival end of a subscriber line, and this arrival end comprises: a line relay 201 energized when a call is sent on this line; a starting relay:. '04 common for all the primary searchers for lines to which the planned line has access; a cut-off relay 207; and a relay 208 actuating a counter. This subscriber line has access to a set of primary line seekers, one of which is represented by evening motor electromagnet 11 and its stop electromagnet 215. When the line shown calls, all these primary seekers are set in motion and seek that line.

    If the seeker shown in the drawing is the first to connect the line, his start relay 216 common to a group of secondary searchers of the lines is energized, and all these secondary searchers start to move. There is a secondary line finder per bead circuit, and the one belonging to the bead circuit shown in fig. 1 is shown by its motor electromagnet 261 and comes out of the stop electromagnet 265.

   The cord circuit further comprises: combiners 250 and 220 which are activated as soon as the secondary line finder has connected the trunk line coming from the primary finder which has connected the calling line; titi translator 229, and call lamps 270 intended to inform the operator that a call is taking place, pilot 372 intended to inform the operator of the various phases of the connection, and of busy 235 coming on when the called line is busy.

   The combirror 250 controls all the contacts of the cord circuit placed below the horizontal dotted line in fig. 1, while the combiner 220 controls all the contacts of the cord circuit placed above this same dotted line with the exception of certain contacts depending on the other combiner 100 as mentioned below.

   The numbers placed near these contacts, both for this figure and for the other figures of the drawings, indicate the positions of the corresponding combiner for which these contacts are closed. The operator's equipment corresponds to this cord circuit, shown in fig. 2, includes a combireur <I> 330 </I> controlling the contacts placed above the upper horizontal dotted line of FIG. 2.

   This combiner 330 is used, when a call is received on this cord circuit, to search for a free recorder, the equipment for rrn thereof being indicated at A at the bottom of FIG. 2.

   The conrbineur 350, on which the contacts placed between the dotted horizontal lines of FIG. 2, controls the recording called called number as well as the ensuing rnareuvre of the primary and secondary selectors of groups and of the final selector. A primary group selector and brush selector output are shown in fig. 1 respectively by their electromagnets namely:

       the electromagnet motor 273 of the brush selector and the motor 281 and stop electromagnets? 85 of the brush holder. This primary selector searches for a free secondary group selector, which in turn searches for a final selector which completes the requested connection. These latter devices have not been represented in the drawings being sufficiently known and forming an integral part of the invention.



       The common arrangement constituting the object of the invention and making it possible to switch from day service to night service, comprises various devices shown in FIGS. 3 and 6, and partly in FIG. 1. The part to the left of the vertical dotted line in fig. 3 also belongs to the small central office. It comprises a combiner 400 which is set in motion by the key .120 actuated when it is desired to pass from day service to night service.

   This combiner 400 then actuates through contacts, such as 402, the combiners, such as 100, placed on the cord circuits to be used for night service. The lines shown on the left of FIG. 3 and above are the continuation of those shown to the right of FIG. 1 and above. Lines 431, 432 etc., of FIG. 1 are the extension of lines 431, 432 etc., of FIG. 2.

   The conductor 100, thus set in motion, then produces changes in the corresponding cord circuit such that calls arriving overnight at that circuit are automatically transmitted to the remote main central office. The contacts of the cord circuit dependent on combiner 100 have been shown in FIG. 1 in thicker lines than the contacts of the other combiners in this figure. Likewise, the relays corresponding to this combiner 100 are designated by numbers included in the first hundred.

    The combiner 400 also controls, through contacts such as 403, combiners such as 460 and 490 placed at the remote main central office. The auxiliary lines linking the two offices are divided into groups at the main central office. A group of these lines is shown to the right of fig. 3 and among these lines one has been shown in more detail. This line marked 450; comprises a relay 463 energized for position 1 of combiner 460, and two closed contacts 470 and 46b for positions 10 and 11 of combiner 460.

   During day service, with combiner 460 in position 1, auxiliary line 450 ends at terminals 465, while during night service, contacts 469 and 470 being closed, line 450 ends at terminals 478 Other lines of the group served by combiner 460 are indicated only by their relay 467 and 468 similar to relay 463. Another combiner 490 from the main central office serves another group of auxiliary lines not shown. By this arrangement the auxiliary lines coming from the small central office are accessible during the night by secondary cord line searchers from certain operator positions in the remote main office.

   One of these circuits. cord is shown in fig. 6, and this circuit is analogous to the cord circuit of FIG. 1. Like it, it comprises a secondary line finder shown on the left of the figure, two combiners 620 and 650, a translator 629, lamps, and a primary group selector shown on the right of the figure. This cord circuit can also be connected to a recorder during a call.

    Thus, it can be seen that when the combiners 100 of the small central office have been activated, changes are made to the corresponding cord circuits of this small central office so that calls received by these cord circuits are forwarded directly to the main central office. say where they are received by cord circuits such as that of fig. 6. The operators of these cord circuits can therefore answer these calls.



  Fig. 5 shows a modification that can be made to the above installation, the combiner 410 having to replace the combiner 400.



  Fig. 4 gives another modification whereby at the small central office secondary researchers of special lines are used during the night service, the secondary researchers shown in fig. 1, remains in service during the day.

   In this fig. d-, the combiner 500 is substituted for the combiner 400, and when this combiner 500 is operated by the key 520, similar to the key 420, for night service, the circuits of FIG. 4 are arranged by the combiner <B> 550 </B> so that the calls received by the primary searchers of lines of the, fig. 1 are transmitted to secondary researchers. such as those of FIG. 4, to finally be sent directly to the remote main central office.



  The installation shown in the drawings is better understood by the following description of the operations occurring during a call.



  We first consider the case of a subscriber of the small central office calling a subscriber of the main central office during the day, that is to say that this call to the small central office is served by an operator.



  During the day's service, the combiner 100 occupies its first position, and its contacts have no influence on the operation of the cord circuit caused by the energization of the relay (line 201, and consequently the action of the common start relay 204.

    The motor electromagnets 211 of the primary seekers for free lines in the group considered are then excited, and these line seekers look for terminal 210 of the calling line by determining among the row of terminals which they traverse; that which produces the excitation of the relays of es sai 214 and 212.

       The motor electromagnet 211 of the line finder which made the connection is then neutralized, and the stop electromagnet <B> 215, </B> as well as the common start relay 216 are crossed by the current. The secondary line seekers of the free cord circuits have access to the primary line seekers under consideration, and the relay 252 of these cord circuits is energized, subsequently causing the motor electromagnets 261 to be excited.

   The secondary line finder brush carriage turns, and the line finder test relays 264 and 262 which first reach terminal 230 are energized, disconnecting the motor electromagnet 261, and energizing the relay. stop 265. The bead circuit combiner 250 is also energized going from its first to its fourth position. For its position 21s the combiner 220 of the cord circuits is energized and passes from its first to its fourth position. As a result, relay 227, primary line finder relay 213, and subscriber line cutoff relay 207 are energized.

   The left coil of translator 229 and the supervisory relay 231 are connected in circle with the calling line, and the call lamps 270 and 372, are on. The handset 330 is energized to seek a connection with a free operator position recorder; and stops in its first or seventh position, assuming the recorder is free. Test relays 264 and 262 are energized again, allowing combiner 250 to shift from its fourth to eighth position through its fifth position.

   When the coinbineur 250 passes through its sixth position, the combirreur 220 is again energized and leaves its fourth position to come and occupy its fifth position. The call lamp 270 is then connected to the switch 236, and by its flickering constitutes for the operator a determined light signal.

   The latter's telephone set is now connected in branch on the calling line, and when this operator lowers, in accordance with the number of the requested line, the dialing keys not shown in the drawings, the combiner 220 switches from its fifth to its eighth position, for which the call lamp sparkles.

   The basic circuit containing the step relay 324 of a recorder, is first closed through the relay 252, which energizes the latter and brings the combiner 250 to its ninth position for which the brush selector 273 is activated. of a rotational movement.

   The main circuit is then shorted by contact 275, and as soon as the first series of pulses is completed, relay 25 \ is neutralized, and combiner 250 advances from its ninth to its tenth position. For this last position, the test relays 264 and 262 are placed in series with the arm 276 of the primary group selector, while the motor electromagnet 281 of the selector brush-holder carriage is energized, which moves the brushes. along the terminals of the row determined by the position of the brush chooser.

   Relay 252 is at this time energized through a circuit extending in the ordinary way to the registrar After searching for a free secondary selector, test relays 264 and 262 are energized, the electromagnet motor 281 is disconnected, while the stop electromagnet 285 and the motor electromagnet of the combiner 250 are energized. The combiner 250 goes from its tenth to its twelfth position, for which the fundamental circuit is extended to the secondary group selector.

   After the completion of the selection the recorder is released and the relay 252 is neutralized, which allows the combiner 250 to come and occupy its fourteenth position. When the combiner of the final selector used in the envisaged connection passes through its occupied position, the supervision relay 242 is energized and the combiner 220 comes to occupy its ninth position.

   When this same combiner leaves its occupied position, the relay 242 is neutralized and the combiner 220 passes from its ninth to its eleventh position for which the call pilot light 240 lights up. When the called subscriber answers, the connection through the end selector is established, and the right winding of translator 229 as well as relay 242 are connected to the called line. The relay 242 is energized again, and the combiner 220 comes to occupy its fourteenth position.

   At the end of the conversation, the reinstatement signals 235 and 245 appear in front of the operator and the operator lowers the trigger key 280 of the cord circuit causing the excitation of relay 263, which in turn brings the combiner 250 from its fourteenth to its seventeenth position. When this combiner reaches its fifteenth position the combiner 220 is set in motion and passes from its fourteenth to its first position. For the intermediate positions between the sixteenth and eighteenth position, battery 359 powering the meter is connected to the calling line, and meter 208 operates.

   When the combiner 220 reaches its eighteenth position, the relay 252 is energized, which causes the comlbineur 250 'to leave its seventeenth position to come and occupy its eighteenth. For this last position, the brush holder carriage is restored to its rest position, and contact 289 being closed, the excitation of relays 262 and 285 takes place. The combiner 250 therefore comes to occupy its first position.



  If the called line is busy, the relay 242 is continuously energized and the handset 220 remains in its ninth position for which the lamp 235 is connected to a switch 246. In this way a busy light signal appears in front of the position. of the operator. The secondary winding of the common coil 247 producing the auditory busy signal is connected by branch on the line, and the operator, by lowering the listening key 239, can communicate with the subscriber.

   It breaks the connection after the subscriber has replaced his receiver on his switch hook by lowering the trigger key 280 to cause the excitation of the relay 263 and bring the combiner 250 to its seventeenth position. The relay circuit 227 is therefore open before the combiner 220 leaves its fifteenth position, energizing the relay 224; which prevents the counter from functioning. This is also immobilized if the connection is broken when the combiner 220 occupies its eleventh position or call position, and the called subscriber does not answer.

   To cause the break of a connection in which the relay 231 is energized on the calling line, the operator lowers the trigger key 280 of the cord circuit and the key 375 from its position. The switches used for connection are placed in a standby condition for which the calling line is made free, following the lowering by the operator of the listening key 239 and the common key 365. The relay 225 is then energized and the combiners corresponding to the switches used for the envisaged connection are brought into positions in which these switches are maintained, while the calling line is made free.

   As for the result of a complaint, the operator wishes to prevent the operation of the meter for the case of a communication to which the called subscriber has answered, she lowers the common key 364 before operating the individual triggering key 280, and the battery 359 is disconnected during the operation necessary to effect the breaking of the connection.



  For night service, key 420 from fi g. 3 is lowered, and the motor electromagnet of the common combiner 400 is included in the circuit passing through the upper contact 406 and the contact of the key 420. The combiner 400 starts to move and only stops in its tenth position, following the closing of its contact 401.

    As soon as the combiner 400 leaves its second position, each of the combiners 100, individual to the cord circuits used during night service, are energized as a result of the closing of the circuits passing through their upper contacts 105 and a contact of the corresponding combiner 400. at the upper contact 402. The combiner <B> 1.00 </B> first passes through its first position, then through its second position under the control of its local contact 101.

   For the second position of combiner 400, relay 479 of the remote main central office is also energized through a special auxiliary line 430 joining the two offices, and contact 403 of combiner 400. The resulting excitation of relay 479 causes the movement of the combiner 460 towards its first position following the closing of the circuit passing through the lower contact 462 and the working contact of the relay 479, then this combiner continues its movement towards its second position under the control of its local contact 461 .

   When the combiners 100 of the small central office and 460 of the remote main central office occupy their second position, a test of the auxiliary lines intended for the night service is made to determine whether they are not being used at this time by a communication. The combiner 460 is used in the main remote central office for several auxiliary lines. Each auxiliary line is provided with a relay 463, 467 or 468 connected to the test terminal of the corresponding line, such as terminal 465 for the line shown in the drawing, and this through a contact such as 464 closed for the first position of combiner 460.

   If the auxiliary line is busy, relay 463 is energized and maintains the right work contact closed. If all the auxiliary lines controlled by combiner 460 are free, the circuit passing through the motor electromagnet of this combiner is closed through contact 466, and the rest contacts on the left side of relays 463, 467 and 468 .

   The combiner 460 then passes from its second to its tenth position for which the auxiliary line 450 is connected via the contacts 469 and 470 to the terminals of a group of secondary line seekers, and to a line relay 4 ' l1. This secondary league researcher in the main central office belongs to a cordon circuit shown in fig. 6 and arranged in the same manner as the smaller central office cord circuits used only for daytime service. This cord circuit is connected to an operator position as in the case of fig. 1.

   A comparison between Figs. 1 and 6 clearly show the peculiarities which characterize the specially designed cord circuits in the smaller central office for night service. For the second position of combiner 460, a circuit passing through the motor electromagnet of combiner 490, lower contact 492, and upper contact 481 of combiner 460 is closed.

    The combiner 490 which controls other auxiliary lines, passes from its first to its second position, and for this a test is made by its upper contact 496 in order to determine whether the corresponding auxiliary lines are free or busy. After this test the combiner 490 comes to occupy its tenth position.



  Auxiliary line 450 is used during daytime service as an auxiliary line from the main central office (right side of fig. 3) to the small office, (left side of fig., 3 and fig. 1 and 2). In normal times, that is to say when the combiner 100 occupies its first position, this line is connected by the upper serial contacts 102 and 103, and the conductors 151. and 152 to the selector of groups of ordinary arrival of the small one. office. These selectors have not been shown in the drawings.

   For night service, it is preferable to use part of these auxiliary lines, normally considered as departure lines from the main central office, as arrival auxiliary lines directly linking together the secondary searchers of the small lines. central office and the corresponding line seekers in the main central office.



  It is however essential that the combiner 100 does not change the normal operating conditions and does not occupy its tenth position corresponding to night service, while the combiner 460 has not itself occupied its tenth position. Therefore, the combiner 100 in its second position tests whether the auxiliary lines controlled by the combiner 460, i.e. the auxiliary line 450 and the other lines dependent on the combiner 460, are free, which takes place if the combiners respective to these lines occupy their first position.

   The motor electromagnet of the combiner 100 is then included in a circuit passing through the upper contact 104 and the contacts 440, 441 and 442 of the individual combiners of the group selectors placed on the arrival side of these auxiliary lines.

   The combiner 100 moves from its second to its tenth position thus preparing a number of changes in the bead circuit. Different contacts of combiner 400 are also used to make the required changes. Contacts 404 of this combiner open the circuit of common conductor 306, which connects call lamps 270 of the cord circuits to pilot relay 358 in the off position. operator.

   Contacts analogous to that shown at 405 are closed completing the connections between the common start relays 216 of the primary line searcher groups and the relays 252 of the corresponding cord circuits, thus reestablishing through wires 431 and 432 the circuits that were previously kept open to contacts similar to that shown at 352 of the combiner 350 of the operator position occupying its twelfth position.

   The number of 405-like contacts is equal to the number of cord circuit groups, each having access to a number of primary line seekers, for example sixty primary seekers, while the number of 402-like contacts is equal to to the number of cord circuits employed for the night service, since only a few of the cord circuits in each group are sufficient overnight for each of the sixty primary line seekers. The extensions of the circuits passing through the serial contacts 404 and 405 are shown at the top right of fig. 2.

           The right low-resistance winding of relay 264 is disconnected from contacts 353 of combiner 350, when combiner 100 occupying its tenth position closes upper contact 106. This winding is then connected to earth through the contact. lower 255 of combiner 250, and the connection, open to contact 353 of combiner 350 for the twelfth position thereof, thus re-established.



  When the brush-holder carriage of a primary line researcher is stopped at the terminals of a calling line, and the start relays 216 are energized, the relays 252 of each free cord circuit, having access to that finder lines, are energized through a circuit comprising: the contact 253 of the combiners 250, the conductor 432, the contact 405 of the combiner 400, the conductor 431, and the working contacts of the common starting relays 216. The electromagnet motor 261 of the secondary line finder is energized through the pass-through circuit by the upper contact 254 of the combi-tor 250, the closed contact of the test relay 262, and the working contact of the relay 252.

   The secondary line finder brush-holder carriage rotates, and when terminal 230 of the calling side primary line finder is reached, relay 264 is energized through the circuit including lower contact 255 of combiner 250, upper contact, 106 of Combirreur 100, the high resistance left winding of relay 264, contact 256 of combiner 250, terminal 230, resistor 217, the working contact of relay 272, and the normally closed contact of relay 213. The relay 264 by attracting its armature places its right low resistance winding in series with the winding of relay 262, and in parallel with its high resistance winding.

   Terminal 230 is placed under the occupied condition, and relay 262 is energized. This last relay by attracting its armature opens the circuit of the motor electromagnet 261 at its rest contact, and closes at its working contact a circuit passing through the electromagnet of the combiner 250, the lower contact 257 of this, and the working contacts of relays <B> 2 </B> 62 and 252. Contact 260 places shout bypass on the combiner the blocking electromagnet 265 of the line finder, which stops the carriage. brush holder while the combiner 250 leaves its first position and passes to its fourth position under the control of its local contact 251.

   The excitation of the relay 349 placed in parallel with the electromagnet 265 has no effect on the combiner 350, which is not in its first position following the removal of the operator's telephone plug. . When the combiner 250 passes through its position 21 / s the following circuit, producing the excitation of the motor electromagnet of combiner 220 is established: lower contact 222, lower contact 266 of combiner 250, rest contact on the left side of the trip relay 263 and upper contact 258 of the combination 250.

   The combiner 220 goes from. its first to its fourth position, and from its second position the circuit producing the energization of the cut-off relay 207 of the subscriber line is established as follows: relay 207, terminal 218, relay 213 of the primary lines finder, terminal 228, secondary line finder relay 227, left rest contacts of relay 225 and right side of relay 224, contact 223 of combiner 220, right rest contacts of relays 123 and 263, and upper contact 255 of combiner 250 Deactivation of line relay 201 causes starter relays 204 and test relays 214 and 212 to be deactivated.

   The motor electromagnets of the primary searchers of free lines are then neutralized, and these searchers of lines stop. The line finder stop solenoid 215 in question, the start relays 216, the relays 252, free lead circuits, the test relays 264 and 262, and the field finders 261 electromagnets corresponding lines, are successively neutralized, so that the secondary line seekers in the group considered are stopped.

   The relay 227 by its working contacts connects the calling line to the left windings of the translator 229 and to the supervision relay 231, through the upper serial contacts 232 and 233 of the combiner 220.

   The relay 231 being energized short-circuits the high resistance right winding of the control relay 121 by a make contact and the lower contact 107 of the combiror <B> 100. </B> The energization of the The motor electromagnet of the cord circuit combiner 330 for the fourth position of the combiner 250 is prevented by opening the circuit at the lower contact 108 of the combiner 100, and the combiner 250 remains in its fourth position.



  Test relay 264, which remains connected during daytime service to driver 309 and contact 333 of combiner 330 through serial contact 268 of combiner 250, is now disconnected by contacts 109 and 110 of combiner 100, and serial contact 268 is used to establish a connection with the auxiliary line.

   This circuit is made up as follows: line relay winding 471, left rest contact of cut-off relay 472, contact 470 of combiner 460, auxiliary line wire 450, lower contact 103 of combiner 100, upper winding right of translator 229, upper contacts 111 and 109 of combiner 100, lower contact 268 of combiner 250, upper contact 110 of combiner 100, left low resistance winding of relay 121, lower contact 107 of combiner 100, shift contact relay 231 vail,

   lower contact 112 of combiner 100, relay 242, lower contact 102 of combiner 100, second wire of auxiliary line 450, contact 469 of combiner 460, and rest contact of relay 477. Relay 471 of the main central office and the Relays 121 of the small central office are energized on this circuit, and as a result of the closing of the circuit passing through the make contact of relay 471, both coils of common starting relays 474 receive current. A guard potential is further created on terminal 480 through, through individual resistor 473 and the normally-open contact of relay 472.

   The secondary line finders of a group of cord circuits in the main central office are looking for terminal 480, and as soon as the brushes of one of them shown in fig. 6, reaches this terminal the relay 664, corresponding to the relay 264, is energized, and the terminal 480 is placed in the busy condition.

   The relay 662 corresponding to the relay 262 is also energized, and the brush-holder carriage is stopped, while the coinbineur 650 corresponding to the combiner 250 goes from its first to its fourth position. When it reaches its 2 '/ 2 position the combiner 620 in its turn passes from its first to its fourth position, and as soon as the latter occupies its second position a circuit producing the excitation of relay 627 is closed passing through relay 477, terminal 478, and contact 623 of combiner 620.

   Relay 121 remains energized through the circuit, the two working contacts of relays 627, contacts 631_ and 633 of combiner 620, supervision relay 631, and the right windings of translator 629. Relay 627 is energized before the slow-acting relay. 477 could not disconnect the circuit on its rest contact, so that the relay 121 is not neutralized during the change made in the circuit.

    The cord circuit of the main central office is therefore connected, with a set of free recorders, - and the establishment of the connection and its control in the main central office remains the same as for a call. local.



       When the called subscriber replaces his safe receiver with the hook switch, relay 231 is neutralized, and the shunt placed around the high resistance winding of relay 121 is opened, causing the main central office to neutralize relay 631 and ignition of the end of conversation lamp 645. As soon as the attendant has received the two end of conversation signals 645 and 635, she lowers the trigger key 680.

    During the reestablishment of the devices having been used for communication between two subscribers who have both answered to the idle positions, the battery of the meter placed at the main central office is connected by means of contacts 623 of the handset 620, at terminal 478, which causes the marginal relays 475 and 476 to be energized and temporarily connects the auxiliary line to an alternating current source. The relay 122 which is now energized is placed in series with a capacitor and is connected in shunt on the relay 121. The right bearing of the relay 123 is crossed by the current flowing in the circuit comprising the make contact of the relay. relay 122.

   Since contact 632 is open for the fifteenth position of combiner 620, while the counter circuit is closed at serial contact 623 for its sixteenth position, relay 121 is de-energized before the counter turns on. In addition, a circuit comprising the upper contact 113 of combiner 100, contact 249 of combiner 220, and lower contact 114 of combiner 100, is provided for energizing the left winding of relay 263.

    The right-hand winding of relay 263 being kept energized on the blocking circuit passing through its right work contact and the upper serial contact 255, this relay closes through its left work contact a circuit causing the excitation of the motor electromagnet of combiner 250, which then leaves its fourth position.

   For the fifth position of the combiner, this electromagnet-motor is kept energized through the circuit passing through the lower serial contact 258, the upper contacts 108 of the cornbineur 100 and lower 267 of the combiner <B> 250, </B> them. rest contacts of relay 262 and working contacts of relay 252. The combiner 250 therefore exceeds its fifth position, independently of the position of combiner 330, and moves through its positions eight, nine, ten, eleven, twelve and fourteen up to 'in its seventeenth position.



  When the combiner <B> 2 </B> 50 passes through its sixth position, the combiner 220 moves from its fourth to its fifth position, since its motor electromagnet is energized through the circuit comprising the lower contact 234, the contact upper 271 of combiner 250, and the right rest contact of relay 225. The circuit again exists for the fifteenth position of combiner 250, and then combiner 220 comes to occupy its ninth position.

   The relay 121 is energized for this last position following the closing of the following circuit: earth, the upper contact 115 of the combiner 100, the lower contact 248 of the combiner 220, the upper 116 and lower contacts 112 and 102 of the combiner. 100, one side of the auxiliary line 450, the contact 469 of combiner 460, the rest contact of relay 477, and the battery.

   The motor electromagnet of the combiner 220 is energized through the step circuit by the upper contact 234; the lower contact 117 of combiner 100, and the working contact of relay 121, which causes the combiner to leave its ninth position. For its eleventh and fourteenth positions, the electromagnet circuit is closed at contact 271 of combiner <B> 250, </B> and combiner 220 finally comes to occupy its first position.

   When it passes through its eighteenth position the following circuit is completed: the relay 252, the upper contact 269 of the combiner <B> 250, </B> the lower contact 243 of the combiner 220, and the reset contact of the relay 242, and consequently a circuit for the electromagnet motor of the cornbineur 250 is closed to the working contact of the relay 252, which brings this combiner into its eighteenth position.

   For this last position, the contact 269 is closed since the brush holder carriage of the group selector is in its rest position, and the relay 262 is energized, which brings the combiner 250 to its first position.



  The relay 123 being energized, interrupts at its left rest contact the connection existing between the right winding of relay 224 and the rest contact of relay 227. On the other hand, it connects this winding to its own left winding high resistance, and at the upper contact 2b5 of the <B> 250 com'oineur. </B> The relay 113 thus maintains its excitation while the relay 224 remains neutralized. On the right NC contact of relay 123, the circuit of relays 227, 213, and 207 is held closed, independent of combiner 205.

   As combiner 220 passes through its positions between the sixteenth and eighteenth the meter battery is temporarily connected through serial contact 223 to terminal 230, and subscriber line meter 208 operates.



  If the disconnection is to be made at the main central office without the communication being marked on the meter, relays 476 and 475 remain neutralized so that relays 122 and 123 do not operate. When the cord circuit is reestablished as described above, combiner 250 comes to occupy its seventeenth position and, by opening its local contact 251, causes the neutralization of relays 227, 213 and 207. Neutralization of relay 227 results in energizing relay 224 through the circuit passing through the left-hand rest contact of relay 227 and serial contact 233.

   The excitation of this relay 224 is maintained through its winding and its left work contact, while its right contact interrupts the existing connection with the battery of the meter. When combiner 250 reaches its eighteenth position, the left winding of relay 224 is shorted to contact 272 of combiner 250, and relay 224 is neutralized.



  If a fault occurs on the switches, the operator of the main central office can stop those used for the envisaged connection but by freeing the calling line following the operation of the delay key from its position as well as the listening key. 639 of the cord circuit. The right-hand winding of relay 625 is thus traversed by current, and this relay, attracting its armature, cuts the circuit controlling relay 627 at its left-hand rest contact. Relay 642 is energized on a circuit completed by the contact. of the right-hand working relay 625, and the combiner 620 comes to occupy its fourteenth position.

   When the quick-reset relay 627 is neutralized, a circuit is established through relay 631, the right-hand NC contact of the relay. 627, terminal 480, right NC contact 472, and the left winding of slow reset relay 477. Relays 477 and 472 thus remain energized, while the potential corresponding to the occupied position is maintained. on terminal 480, and thus no secondary line finder can stop on this terminal.

   When the auxiliary line is interrupted at the working contact of relay 627, the reestablishment of the switches at the outgoing central office takes place as has already been described, which allows combiner 250 to advance to its seventeenth position, and free the line of the calling subscriber. The combiner 220 stops in its ninth position, since the relay 121 remains neutralized. Relay 224 is energized but has no influence on the calling line, since the right armature of relay 224 is disconnected from bare earth contact 118 of combiner 100.

   By the right-hand rest contact of relay 227, the right-hand rolling of slow-reset relay 213 is kept energized through the circuit including relay 231 and terminal 230.



  If relay 262 is neutralized for the second position of combiner 250, which takes place when two secondary line seekers remain on the same terminal of a calling side primary line finder, both windings of relay 264 are energized, but cannot maintain this excitation after the break of the lower serial contact 255. The high resistance winding is then disconnected, and the relay 263 receives current through the circuit passing through the rest contact of the trigger key 280, the upper serial contact 267, the rest contact of relay 262, and the working contact of relay -252.

   The motor electromagnet of combiner 250 is energized through the circuit passing through the left work contact of relay 263, and serial contact 258. This combiner then completes its rotation without the combiner 220 starting to move. , since its circuit is open at the left rest contact of relay 263.



  When the key 420 is returned to the normal position, the motor electromagnet of the combiner 400 is energized through the step circuit by the lower contact 406 and the rest contact of the key 420, which causes this combiner to in its first position.

   The combiner 100, for its part, goes from its tenth to its eleventh position as a result of its electromagnet through the circuit comprising the lower contacts 105 of the combiner 100 and 402 of the combiner 400. @ The relay 479 is neutralized as soon as the contact 403 is open, and the motor electromagnet of the combiner 460 is energized through the circuit passing through the upper contact 462 and the closed contact of the relay 470.

    The combiner 460 therefore comes to occupy its eleventh position as well as the combinator 490, the electromagnet of which is included in the closed circuit passing through the upper 492 and lower 481 contacts of the combiner 460. The combiner 460 cannot leave its eleventh position. as long as an auxiliary line placed under its control is still used for a night connection, because in fact in this case the common relay 482 and the relay 472 of the auxiliary line remain energized.

   When all the auxiliary lines in question are free at their starting ends, the motor electromagnet of combiner 460 is energized through the circuit passing through the contact. lower 466 and the rest contact of relay 4212, and this combiner returns to its first position making the auxiliary lines free for daytime service. In an analogous manner, combiner 490 leaves its eleventh position if relay 493 of the corresponding auxiliary line is neutralized.

     The combiner 100 cannot be returned to its first position as long as the cord circuit is not free and the combiner 250 does not occupy its first position. When these conditions are fulfilled, the combiner 100 goes from its eleventh to its first position following the excitation of its motor electromagnet through a dead circuit by the lower contacts 104 and 255.



  According to fig. 5, the control of the operation of the combiner 410, similar to the combiner 400 of FIG. 3, is done automatically at the operator's jack through contacts 411, 412 and 413, if these are closed, which takes place when all the positions of the small central office are free.

   The combiner 410 then goes from its first to its tenth position as a result of the excitation of its electromagnet through the circuit comprising the upper contact 416. If one of the positions is occupied, its time-limited combiner, similar to combiner 350, moves from its twelfth to its first position, and one of the contacts 417, 418 or 419 is closed. The motor electromagnet of combiner 410 is then energized through a circuit passing through lower contact 416, which brings this combiner to its first position.



  Fig. 4 represents a modification made to the circuits, and in which, in addition to the cord circuits used for the day service, at the small central office it is foreseen for each of the sixty primary searchers of lines. having access to the same terminals and used only for night service. These special line hunters are connected in the same way as the auxiliary lines used during the day for calls from the main central office to the small main office, and in which they are connected to the group selectors.

   When the key for night service 520, corresponding to key 420, is lowered, the electromagnet of the combirror 500, corresponding to the combiner 400, is energized through the circuit passing through the upper contact 506, and the contact of the key 520. This combiner 500 leaves its first position and passes under the control of its local contact 501 in its tenth position.

    The electromagnet of the combiner 550 particular to the secondary line finder used for night duty is then energized through the circuit passing through the lower contact 555 and the upper contact 502 of the combiner 500, and this combiner passes from its position. first to its second position. The auxiliary lines used for the night service are placed at the main central office under the control of the combiners shown in fig. 3.

   For the second position of the combiner 500, the circuits controlling the combiner placed at the main central office are completed at contact 503 on a special auxiliary line, as has already been described, and as in this main central office the different auxiliary lines are controlled by a same combiner, it is essential that a secondary line finder does not get a connection to a primary line finder on the calling side until the combiner corresponding to the main central office has prepared the other end of the auxiliary line .

   The motor electromagnet of the combiner 550 can therefore only be excited through a circuit comprising the lower contact 554 and the contacts 540, 541, and 542 of the combiners of the group selectors corresponding to the auxiliary lines, only if all these combiners occupy their first position. In this case, combiner 550 then goes from its second to its fifth position.

   The connection to the group selector is then opened to the upper contacts 552 and 553 of combiner 550. The motor electromagnet 561 of the line researcher can now be energized through the circuit passing through the lower contact 556 of the combiner 550, the NO contact of test relay 562 and the NO contact of common start relay 216 shown in fig. 1.

   When the terminals of the primary line finder on the calling side are reached, relay 564 is energized through the circuit passing through the upper serial contact 557, the right winding of the relay 564, the lower contact 568, the terminal of test 560, resistor 217, the on contact of relay 212, and the closed contact of relay 213. Relay 564 by drawing its complete armature to its working contact a circuit placed in parallel on its right winding, and comprising its left winding and the winding of relay 562.

   The calling terminal is thus placed in its busy condition, while the relay 562 is energized and by its rest contact breaks the circuit controlling the motor electromagnet <B> 561. </B> On the other hand, it completes at its working contact the circuit passing through the upper serial contact 554, and controlling the motor electromagnet of the combiner 550. In parallel on the circuit of the electromagnet of this combiner is placed the blocking magnet 565 of which the circuit is completed by the lower contact 559, and it follows that the brush-holder carriage is stopped while the combiner 550 goes from its third to its seventh position.

   When combiner 550 reaches its fifth position, the following circuit is established: Primary Line Finder Relay 213, Cut Relay 207, Subscriber Line, Arm 568, Relay 567, Left Null Contact of relay 563, and the upper serial contact 566. The relay 567, attracting its armature, connects by its working contacts the left bearings of the translator 559, and the supervisory relay 571 to the calling line.

   Relay 571 completes its armature with a shunt around the high resistance left winding of relay 572 which is connected together with the right windings of translator 569 to the lower serial contacts 552 and 553 of the auxiliary line, for the seventh position of combiner 550. Relay 572, like relay 471 in the case of FIG. 3, is excited, and the call is extended to the main office where the connection is established on a cord circuit such as that shown in fig. 6.



  When the connection is broken, at the main central office and the combinator 620 leaves its fourteenth position opening its contact 632, the relay 572 is neutralized and the electromagnet of the combiner 550 is energized through the circuit passing through the upper contact. 555 and the rest contact of relay 572, which brings this combiner to its fifteenth position. When the breaking of a connection occurs after a conversation between the two subscribers, the combiner 620 goes from its sixteenth to its eighteenth position and connects the battery of the meter to its contact 623.

   The relays 475 and 476, are energized and alternating current is sent on the auxiliary line determining the excitation of the relay 573, which completes at its working contact a local circuit for the excitation of the relay 574. For the fourteenth position of the relay. combiner 550, relay 5î2 is energized through the circuit passing through earth, the upper serial contact 575, the relay 572, the lower serial contact 552, an auxiliary line wire, the rest contact of the relay 477, and the battery.

   The combiner electromagnet 550 is then energized through a circuit comprising the upper contact 554, and the working contact of the relay 572, 13 which causes the combiner to reoccupy its first position. For its sixteenth and seventeenth positions the meter battery 576 is connected to serial contact 566 and terminal 568, and the subscriber line meter 208 is operated. When a connection is broken at the main central office and it is not to be counted, relay 563 is energized for the thirteenth position of combiner 550 on a circuit comprising the lower contact 575 and the normally closed contact of the relay. 574.

   The relay 563 closes for itself a blocking circuit through its right-hand working contact and the lower serial contact 557, and opens at its left-hand neutral contact the relay circuit 567, 2 <B> 1 </ B> 3 and 207.



  As relay 564 is not kept energized by its left winding, when its right winding is disconnected at upper serial contact 557 as soon as combiner 550 has left its third position, relay 563 is energized through the through circuit. by the rest contact of the relay 562 and the upper serial contact 556. The motor electromagnet of the combiner 550 is thus energized for its seventh position, through the upper contact 559 and the left working contact of the relay 563. The line finder is then returned to its normal position as has already been described without disturbing the calling line.

   If the switches are held at the central office as described, and relay 477 remains energized, the excitation of relay 572 is tripped, and combiner 550 continues to occupy its fourteenth position. Relay 563 is energized through serial contact 575 and the calling line is made free. The right bearing of slow reset relay 213 is kept energized through the circuit comprising the brush 560, the upper serial contact 558, and the right rest contact of the relay 567.

 

Claims (1)

CLAIM Semi-automatic telephone system in which the calling lines belonging to the central office are connected by means of automatic switches to the operator positions of this office, the connection between the calling line and the called line is checked. under the control of these operators, characterized in that circuits and apparatus are provided by which calls received by the central office can be transmitted temporarily and automatically to the operators of a large remote central office so that during working hours where the first office is not served, calls that arrive are forwarded to art large office to be answered. SUB-CLAIMS 1 Installation according to claim, charac terized, showing that said circuits and apparatus modify during their operation the circuits corresponding to the automatic switches of the central office not served at certain times so that these switches connect the calling lines of this office directly in the large central office. 2 Installation according to claim and sub-claim 1, characterized in that the calling lines belonging to the central office not served at certain times, and which were connected directly to the large central office, are automatically extended to one of the operator positions from this large office in the same way as if they were calling lines belonging to this large central office. 3 Installation according to claim and sub-claim 1, characterized in that, when in response to the operation of said circuits and devices, a calling line belonging to the central office not served at certain times is extended directly to the large central office, the control of the connection established or being established takes place entirely at the large central office, and no control takes place at the first central office to which the calling line belongs and normally terminates. 4 Installation according to claim, charac terized in that in response to the operation of said circuits and devices, certain lines of a set of auxiliary lines bringing together the central office not served at certain times and the large central office, are modified so that they can directly connect calling lines belonging to the first central office with the large central office without the intermediary of any operator of this first central office. 5 Installation according to claim and sub-claim 4, characterized in that said auxiliary lines thus modified serve in normal service as auxiliary lines of departure from the first central office, and that after their modification, they serve as lines of arrival in the large central office where service is concentrated. 6 Installation according to claim and sub-claims 4 and 5, characterized in that in normal service, the arrival ends of these auxiliary lines end at group selector switches, and the starting ends at contacts similar switches, while after their modification these lines are disconnected from these switches and serve to extend calling lines between line-seeking switches placed at the unserved central office at certain times to which these calling lines belong, and contacts line finder switches placed in the large central office. 7 Installation according to claim and sub-claim 4, characterized in that test devices determining the condition existing at each of the ends of auxiliary lines, are used during the concentration of the service of the central office not served at certain hours at large central office, and prevent modification of these auxiliary lines until they are free. 8 Installation according to claim and sub-claims 4 and 7, characterized in that said test devices determine the condition of the auxiliary lines at both ends thereof. 9 Installation according to claim and sub-claim 4, characterized in that said circuits and devices also serve to bring back the auxiliary lines and the devices associated with them, in the desired condition for normal service. 10 Installation according to claim and sub-claims 4 and 9, characterized in that the reestablishment of the conditions desired for normal service of the auxiliary lines and associated apparatus; is prevented by the test devices as long as these auxiliary lines and their devices are not unoccupied. 11 Installation according to claim and sub-claims 4, 9 and 10, charac terized in that the test devices determine the condition of said auxiliary lines and their associated devices, both in the two central offices. 12 Installation according to claim, charac terized in that the operation of said circuits and devices serving to concentrate the service of the central office not served at certain hours in the large central office, is carried out automatically if the first central office no longer serves calls arrivals. 13 Installation according to claim and sub-claim 12, characterized in that said circuits and centering devices operate automatically to restore the conditions specific to a normal service, as soon as the central office not served at certain times is ready again. to answer incoming calls. 14 Installation according to claim, wherein a calling line is connected to a connection circuit of the central office to which this line belongs, characterized in that this connection circuit is used in normal service to extend this line to a position of operator of this office, while outside this normal service the connection circuit is used to extend the calling line to a line leading to the large central office where the service is concentrated. 15 Installation according to claim and sub-claim 14, characterized in that the circuits and devices serving for the concentration of the service in a large central office comprise a combiner associated with the connection circuit and serving alternately to transform this connection circuit so to make it specific to the call concentration service at the large central office, and then to re-establish this connection circuit for normal service. 16 Installation according to claim and sub-claims 14 and 15, characterized in that the combiner also serves to modify the condition of an auxiliary line connecting the two central offices, such that a group selector combined with it for normal service is disconnected from it for concentration service, and vice versa. 17 Installation according to claim and sub-claims 14, 15 and 16, characterized in that the combiner during its operation to produce one or the other of said changes first advances to a test position in which it determines whether the group selector is occupied or not, and continues its movement only if this group selector is free. 18 Installation according to claim, wherein a calling line is connected through one of the line seekers of a group, to a connection circuit, and from there to a free operator position, characterized in that in addition to the normally functioning line hunters, special line hunters are provided, which having access to the same calling lines come into action when the normally working line hunters are out of service, and this to extend the calling line to a connection circuit which can be connected directly to a free auxiliary line going to the large central office.