BE430357A - - Google Patents

Description

       

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  Improvements to telephone systems.



   The present invention relates to telephone systems and more particularly to combined systems for serving a small group of subscriber lines in a rural area.



   It is an object of the present invention to provide an improved system having the general character indicated and which is simple and economical as a device, the operation of which is completely safe and which requires only a minimum of maintenance.



   More especially, it is an object of the invention to provide a system of the form described in which relays are exclusively used to establish desired communications.

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 between the various lines of the system and in which the arrangement is such that the number of relays required for an exchange with a given line capacity is minimized.



   The invention will be better understood by referring to the present specification relating to the accompanying drawings, in which, FIG. 1 shows the finder side of a finder-connector link circuit forming part of the system of the present invention, FIG. 2 shows the starting members of the connection circuit, which combined with the distributors shown in FIG. 1 control the distribution of the free connection circuits to the calling lines, FIG. 5 shows the link part of the researcher-connector link circuit, FIG. 5 shows the connector side of the link circuit, FIGS. 4 and 6 represent the control devices associated with the control junction and common to all the finder-connector link circuits included in the system, fig.

   7 shows the supervision devices relating to the above circuits, FIG. 8 shows the equipment located at the operator's station in the control office, and FIG. 9 is a diagram showing the links of a system having the characteristics given in the present invention.



   Referring now to fig. 9 of the drawings, a system of the general type described in the preceding paragraphs can be seen represented therein in schematic form, this schematic representation being given with the aim of facilitating the understanding of the characteristics belonging more particularly to the invention. In short, the system comprises a central control office 900 which can have a number of subscriber lines, not shown, which terminate there and which is interconnected with a second rural office 910 controlled from office 900, through the intermediary of a control trunk line 443 and a trunk line for long distance communications 407.

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  The second office receives a relatively small number of subscriber lines, four of which are indicated by 911, 575, 913 and 914, to which subscriber stations A, B, C and D are respectively connected. Although only one set has been represented as being connected to each of the lines indicated, it is understood that in a real installation having the characteristics of the system described each of these lines would probably be of the shared line type, that is to say that each of them would have more than one station connected to it.



   The establishment of communications between any two of the various subscriber lines terminating at secondary office 910 is done entirely under the control of the rural operator located at central office 900.



   Referring now to Figs, 1 to 8 inclusive where the circuits of the system described above are shown in great detail, and more particularly to Fig, 1, the finder side of the finder-connector link circuit shown therein comprises a A circuit by which any one of several subscriber lines terminating at the secondary office can be connected to the line conductors of the backhaul circuit. In this way, one of the lines 106, 107, 108, 911, 1271, 1281, 1291,1481 and 1491 can be connected to the conductors forming the link line 189 when the relays R120, R130, R140, R150, R160, R170, R180, R190, RIO and R20 provided in the link circuit are attracted.



  Of the indicated relays, the relays R120, R140 and R160 form the group selection relays and are connected and arranged so as to be actuated successively due to the emission of a call on one of the lines indicated to make the selection of 'a group of lines including the calling line. Likewise, relays R180, R190 and RIO are connected and arranged in such a way as to be actuated in order to make the selection of a

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 particular calling line belonging to a group of lines chosen by one of the group selection relays. Relays R130, R150 and R170 are line group switching relays and each corresponds to one of the group selection relays.

   These relays are combined to be actuated as described in detail below, but only when the corresponding group select relay is pulled and after the calling line has been selected. It is understood that the number of group selection relays and the number of individual relays will depend entirely on the number of subscriber lines to which the link circuit can access. For a link circuit with access to about 100 lines, ten group selection relays and ten unit relays will be needed. In order to initiate the operation of the link circuits, each of the subscriber lines is associated with a line relay which attracts as soon as a call is made on the line with which it is associated.

   This relay for line 911 is indicated by R100 and, thanks to the starting conductor C91, attracts so that the distributors indicated in 80, fig. 1, and the starting members shown in FIG. 2, determine a free link circuit which will be connected to the 911 line when a call is made on this line, and to mark the group of lines comprising the 911 line as well as the 911 line itself of the marked group. Each of the subscriber lines is also associated with a cut-off relay so that the line relay which is associated with it is de-energized immediately as soon as the link circuit is connected to this line. This relay is indicated by R110 for line 911. In the distributors 80 there is a relay corresponding to each of the connection circuits of the secondary office.

   This relay for the link circuit shown is indicated by R30 and the terminals for three other similar relays are respectively indicated at 81, 82 and 83. In order to control the operation of the relays

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 indicated above, the two relays R300 and R310 represented in fig, 3 have been provided and as is indicated in detail below, the first of these relays attracts at the end of the selection operation of the group of lines by the finder and causes the attraction in the order of the unit relays to search for the calling line in the chosen group, and the R310 relay attracts when the calling line is found to be connected to the control junction 443 .

   The attraction of the distributor relay corresponding to the finder-connector represented is under the control of R20 and it should be noted that this latter relay attracts to designate a new connection circuit to a calling subscriber line in the event that the link shown starts paging and cannot find the calling line.



   The starting devices shown in FIG. 2 are interconnected with distributors 80 and contain relays R200, R210, R220, R230, R240, R250, R260, R270, R280 and R290 which attract so that a signal is transmitted to the operator of the central office when all the circuits are busy and to prevent a faulty link circuit from being designated twice for a calling line.

   These devices also include a time device 210 'which in concert with some of the indicated relays causes the release of the link circuit seized in the event that this link circuit fails to find the calling line which caused its operation afterwards. a determined time counted from the moment it was entered, and designates a second link circuit to be connected to the calling line.

   The indicated relays then attract in such a way that if the second designated link circuit cannot find the calling line, an alarm signal is transmitted to the operator's set to indicate the state of the link circuit and that all the organs of the rural office are prevented in their subsequent functioning,

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Referring now more particularly to FIG. 5 of the drawings, the equipment shown therein is particular to the link circuit shown and comprises a repeater 305 to which line 189 is normally connected terminating at the finder side of the link circuit, as well as line conductors arranged to be connected to the links. line conductors C343 and C544 exiting from the connector side of the link circuit.

   These latter conductors as well as the line conductors of line 189 of the link circuit are also arranged to be connected by a pass relay R390 to the control equipment common to all the link circuits shown in FIGS. 4, 6 and 7.



  The repeater shown includes primary windings 306 and 307 connected in series across line connectors C347 and C348 by means of capacitor 308, and secondary windings 318 and 319 connected in series between line conductors C346 and C345 by means a capacitor 309.

   The control equipment for this part of the link circuit includes, in addition to the relays R300 and R310 already mentioned, the changeover relay R390 which makes it possible to associate the link circuit with the common control equipment shown in fig. 4 and 6, relay R380 in order to be able to selectively associate this control equipment with the various control relays included in the connector side of the link circuit, line switching relays R520 and R330, and relays R340, R350 , R360 and R370 which operate as described in detail below to release the link circuit.



   The connector side of the link circuit as shown in fig. 5 is similar to the finder side of the link circuit in that, a circuit arrangement is provided whereby any called line desired can be connected to line 349 of the link circuit by the operation of selection elements. group and group switching relay.

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   Thus the lines indicated by 527, 528, 529, 537, 538, 559, 911,
506, 575, 507, 508 and 509 can be selectively connected to the line 349 of the link circuit thanks to the operation of relays R500, R510, R520, R530, R540, R550, R560, R570, R580, R590,
R60 and R70. Among the indicated relays R70, R590, R570, and R550 are group selector relays which are connected and arranged in such a way that they attract in the order indicated and following the pulses that are part of a first series of transmitted pulses on the control junction 443 by a pulse generator unit of the operator's station of the central office, to choose a group of lines containing the called - desired line.



   Likewise the unit relays R530, R520, R510 and R500 are connected and combined in such a way that they attract successively in the order indicated and following a second series of pulses transmitted by the pulse generator indicated for choose the line - called in the lines of the chosen group. The relays R60, R580,
R560, and R540 are group switching relays each of them corresponding to one of the group selection relays and can be actuated only in the case where the group selection relay associated with it is attracted and the called line is free.



   The control devices associated with the control junction and common to all the connection circuits contained in the rural office are shown in figs. 4 and 6 and include two repeaters 454 and 616, control relays R400,
R410, R420, R430, R440, R450, R460, R470, R480, R40, R50, R600,
R610, R620, R650, R640, R650, R670 and R690 to perform the various functions given briefly above and given in more detail below. Among these relays, relays R600 and
R610 are relays which receive pulses to control the operation of the group selector relays and unit relays included in the connector shown in fig. 5.

   These

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 two relays are connected and combined in such a way that one of them, namely R600, draws at the start of each odd pulse transmitted by the pulse generator device located at the attendant station on the control junction line 443 and releases at the start of each even pulse transmitted by this device. The relays R630 and R640 are relays controlling the ringing current and attract either one or the other to apply the ringing current to either of the line conductors of the subscriber line. called, so as to have a selective calling means for devices connected to the same shared line.

   The relays R660 and R670 are provided for the purpose of controlling the operation of R380 included in the link circuit proper, so that the pulse relay R600 is successively connected to the group and unit selection relays. of the connector shown in fig. 5. The R650 and R690 relays are the occupancy and conversation routing relays and are included in the called line test units to determine if it is free or busy to prevent the calling line from being dropped. connected to the called line in case the latter is busy, in order to transmit the busy signal to the operator and to the caller in case the called line is busy and in order to connect the calling line to the line called if the latter is free.

   The R620 relay is a warning relay which is provided to allow the central office operator to establish communication with a called subscriber line to the exclusion of a calling subscriber line. The other relays indicated above / are shown more particularly in fig. 4 with the exception of R400 and R420 are controlled in the first place by the parts of the operator of the central office and function to control the relays shown in the fig. 6. The R420 relay comes into play to signal

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 to the operator of the central office when the common equipment is seized, when all the researcher-connector link circuits are occupied, or when a fault occurs in the rural office which renders the switching equipment inoperative. 'found there.



   A local control station 43 is also part of the common equipment and can also be used if necessary by an operator in the rural office, to control the establishment of communications between the various lines leading to the rural office. independent of the central office operator. For this communication, it should be noted that the R400 relay is designed to be able to connect to the common equipment either the 443 control junction or the back-up device for the attendant.

   With the aim of allowing the operator of the central office to test the conditions of the various circuits, of connection located in the rural office, one envisages the supervisory organs represented in fig, 7. These organs are interconnected with the equipment. common shown in fig. 4 and 6 and include the relays R700, R710, R720, R730 and R740 which are combined to be actuated selectively, due to the transmission of digits, determined beforehand ;, by the operator's station in the central office, in order to connect the operator station to the line conductors of any of the various link circuits included in the secondary office.



   Referring now more particularly to FIG. 8 of the plans, the operator's equipment forming part of the central office and associated with the control junction 443 is shown as composed of an operator telephone 800 which is combined to be connected, via a key 810 and a repeater indicated generally in 840, at the aforementioned junction. Additional keys 870 and 880 are provided and used to perform call and call functions.

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 monitoring indicated above and described more particularly below.

   These units also include a pulse generator device 860 and control units comprising two relays R820 and R830 which operate in the manner indicated more specifically below in the detailed description of the operation of the system.



     Operation of the searcher looking for a calling line.



   Let us now refer to the operation of the apparatus for establishing a communication between two subscriber stations such as for example the two stations A and B connected to lines leading to the secondary office; if station A is the calling station, the call is sent when the subscriber activates the generator of his station to send inrush current on line 911 and thereby cause the attraction of line relay R100. The path traveled by this current from one / the terminals of the generator via C24, the upper winding of R100 and members RAlll, RA101 and C25 to the other terminal of the generator.

   Because of this excitation R100 attracts to establish, by PA103 an obvious circuit for the excitation of its lower winding so as to remain attracted independently of its upper winding. By RA1C1, the relay 100 interrupts at a point the circuit of the calling line and, by RA102 applies a negative coming from the cut-off relay R110 to the control conductor C29, in order to mark this line to the finder which it leads to. By the attraction of RA103, an earth is applied by RA113 to the starting conductor C91, this earth serving to mark in the searchers the particular group of lines containing the calling line 911 and to start up one of the searchers who will go to searching for the calling line, assuming that a finder-connector link circuit is available.

   So when

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 the relay R100 attracts, a circuit is established to energize the slow release R210 relay included in the starting devices shown in fig. 2. This circuit starts from the earth given by RA113 through components RA103, RA104, RC105, C91, C93 and through the winding of R210 towards the negative. The relay R210 by attracting establishes by RA211 a circuit to provoke the attraction of the group selection relays forming part of the finder in fig, 1 only in the case where the control equipment common to the various researcher link circuits connector of the secondary office is free when the call is made.

   By means of its reinforcement paddles RA212, RA213, RA214, RA215, RA216 and RA217, the R210 relay causes the operation of the starting devices shown in fig. 2 to designate a new researcher link circuit - free connector to be connected to the calling line in the event that the link circuit shown does not manage to find the line, and to transmit an alarm signal to the office attendant central office in the event that the designated second link circuit also fails to find the calling line, all this will be done as described in detail below.



   Suppose that the control equipment common to all the link circuits of this secondary office is free, all the relays shown in fig. 4, 6 and 7 are then in their rest position shown When relay R210 attracts it follows, assuming that the seeker-connector link circuit shown is the link circuit assigned to the calling line ± .Il, that ' a circuit is established due to the first pull of R210 to energize the group selection / relay R12.0, this circuit starting from the earth in RA496 through the intermediary of components RA439t ,, C204, RA201 , RA211, RA231, C89, RA32, RC33, C78, RA312, ROSIS, RA301, RC302, C74, RA161, RC162, RA141, RC142, RA121,

     RC122 and through the enroulemt of R120 bers the negative. The relay R120 by attracting establishes by RA125 a wax

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 blocking for itself starting from the earth at C78 and interrupts by RA121 its initial attraction circuit, while it completes by RA121 and RC128 an excitation circuit of R140 and prepares by RA124 a circuit indicated below for relay excitation
R130 group switching. The circuit indicated above for the excitation of R140 starts from the earth in C78 through RA312, RC313, RA301, RC302, C74, RAlôl, RC162, RA141,
RC142, RA121, RC128 and through the winding of R140 to the negative.

   Via RA126, relay R120 connects the starting conductor C92 to C79, the latter conductor being included in the circuit indicated below for the energization of the lower winding of relay R300.



   As previously indicated each of the starting conductors C91, 092, etc., corresponds to a group of subscriber lines and the relays respectively associated with the lines of each group all have circuits controlled by them to apply the earth to the subscriber. group start driver associated with them.

   In the present case the group of lines comprising the calling line is associated with the start-up conductor C91 and assuming that there is no calling line in the group associated with the C92 conductor so that the earth is not not present on this conductor, R300 will not be excited by the attraction of RA126. As a result R140 attracts to establish by RA145 a blocking circuit for itself, to interrupt by RA146 the blocking circuit indicated above for R120, and to interrupt by RA141 and RC142 a point of the initial circuit for the excitation of R120 . This last relay. releases after a certain time interval and opens via RA124 a point of the circuit prepared for the energization of the group switching relay R130.

   When RA125 is released another point is opened in the blocking circuit of R120 and, when RA126 drops back, the start lead C92 is

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 disconnected from 079 forming part of the circuit for energizing the winding of R300. When RA141 comes into contact with RC143, a circuit is made starting from ground at C74, to energize the third group select relay R160 and when RA144 is attracted a circuit is prepared to energize the second group switch relay R150. The sequence of operations of the group selection relays R120, R140, R160, etc., continues in the exact manner described above until one of these relays corresponding to the group of lines containing the calling line 911 is drawn.

   In the present case, where the calling line is included in the second group of lines, this group corresponding to the group selector relay R140 and to the starting conductor C91, a circuit is established when attracting R140 to energize the lower winding of R300.



  This circuit starts from the earth in RA113 via the components RA103, RA104, RC105, C91, C96, RA147, C79, RA316, to cross the lower winding of R300 going towards the negative. The relay R300 immediately attracts to short-circuit, by RA305 its upper winding, which has the effect of making it slightly slow on release. It should be noted that the two relays R160 and R300 are energized simultaneously due to the attraction of R140, but R300 is faster in the attraction than any other group selection relay. The R160 drive circuit is therefore opened by RA301 and RC302 before the R160 relay attracts. Also R160 remains. released and R140 remains attracted by its guard circuit passing through RA166 to go to earth in 078.



   Whenever one of the group select relays R120, R140, R160, etc. draws, it prepares test circuits to determine that it is the calling line in the line group to which it is associated. Therefore relay R140 by pulling RA148, RA149, RA149 etc, prepares test circuits

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 for lines 911, 1481, 1491 etc included in the group corresponding to the group selector relay R140 and the start-up conductor 091. These prepared test circuits allow unit relays R180, R190, RIO, etc. , to choose the particular calling line from the group of lines chosen and including the calling line.

   When establishing this communication, it should be noted that the relay R140 by attracting applies through RA148 the negative coming from the cut-off relay R110, to 0116 of the common line 156 of the link circuit.



   After the searcher has operated to select the group of lines containing the calling line, the unit relays are put into operation to choose from this determined group of lines the particular calling line which can be identified by the negative given to it by the control conductor 0116. Therefore when R300 attracts, a circuit is established for the energization of the first of the relays of units R180, this circuit starting from the earth at C78 through RA312, RC515, RA301, RC303, C75, RA185, RC186, RA194, RC195, RA15, RC15 and the winding of R180 to negative.

   Relay R180 attracts after a while and establishes through RA188 its own blocking circuit, this circuit starting from earth at C78 through RA18, RA198, RA188 and through the winding of R180 to negative.



  By RA185 a circuit is established starting from the earth through C75 to energize the second relay of units R190. By this same armature pallet and its associated contact RC186 the initial circuit by which R180 was energized is interrupted, the last indicated relay being kept attracted for a certain time by its blocking circuit in the manner described above. When R180 attracts, it connects the conductors of the common line 156 of the link circuit via its armature paddles RA181, RA182 and RA183 to the conductors of line 189 of the link circuit leading to repeater 305.

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   We will not now deal with the operations which follow the operation of the reinforcement pallets RA181 to RA183 inclusive and consider the sequence of operations which will occur for the unit relays. It will be seen that R190 attracts shortly after the attraction of R180 and prepares by RA194 and RC196 a circuit for the excitation of the relay of units which follows it immediately. By its RA197 armature pallet, the R190 relay establishes a blocking circuit obvious to itself starting from the earth at C78, and by RA198 it opens at one point the guard circuit indicated above for the first relay of R180 units.

   Relay R180 immediately releases to establish, through RA185 and RC186, the circuit previously prepared for the unit relay which follows it R190, the latter relay by attracting interrupting the blocking circuit of R190 and preparing a circuit for excitation. of the fourth unit relay. These operations continue until the particular calling line of the chosen line group is found.



   As indicated above, the calling line is located and is determined by the presence of a negative on one of the control conductors, corresponding to C116, and included in the common link circuit lines 156, 159, 199, etc.



  In the present case that the calling line 911 is the first line of the second group of lines, this line is immediately found upon pulling R180. Consequently when RA183 engages with the contact which is associated with it, a circuit is established for the excitation of the lower winding of R310, this circuit going from negative to the cut-off relay R1110 via RA102, C29, RA148, 0116, RA183, C119 and through the lower winding of R310 to the positive. The relay R310 by pulling its armor paddle RA312 close against its associated contact RC314 to establish a blocking circuit for itself.

   This circuit includes the coil-

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 higher of R310 and goes from earth at C78 to negative at the lower terminal of this winding. When RA312 clears from RC515 the ground is removed from 075 so that the circuit is no longer prepared to energize other unit relays R180, R190, R10, etc. Also the continuation of the operations of these relays is immediately interrupted when R310 is attracted.



  When establishing this communication, it should be noted that the character of slow pull relays that the unit relays possesses prevents the continuation of operations from continuing for them after the searcher has found the calling line.



  For example, relay 310 attracts to interrupt the circuit prepared for R190 before sufficient time has elapsed to allow the latter relay to attract. The closing of RA312 and RC314, upon attraction of R310, connects C78 to 076 and consequently establishes a circuit for the excitation for the relay chosen from among the group switching relays which, in the present case is / relay R150 associated with the group selection relay R140. This circuit starts from earth at C78 through RA312, RC314, C76, RA144 and through the winding of R150 to negative.

   The R150 relay attracts when energized by the circuit shown above and by its armature paddle RA151 and its armature paddle RA152 connects the C24 and 025 conductors of the 911 subscriber line to the conductors. of line C340 and 0348 leading to the common control equipment of all the connection circuits shown in fig. 4, 6 and 7.



   The R310 relay by attracting RA315 short-circuits its lower winding to cause the excitation of the cut-off relay R110 associated with the calling line 911 by a circuit starting directly from the earth in RA315 via C119, RA183, C116, RA148 , C29, RA102 and through the winding of R110 to negative. By RA317 relay R310 prepares a circuit described below to block the connector of fig. 5,

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 in its working position, independently of the control equipment shown in fig. 4, 6 and 7. By RA316 relay R310 interrupts the attraction circuit of relay R300 and by R311 it establishes a circuit described below to energize the passage relay R390.

   When R110 attracts RA113 it interrupts the blocking circuit for the line relay R100 and removes the earth from the start conductor 091. By RA112 the relay R110 shunts the armature pallet RA102 to establish a blocking circuit for itself. and to maintain ground on the C26 control conductor to keep the calling line marked as busy at the relays of the connectors to which the line terminates.



  By RA111 the R1110 relay opens at a point the circuit by which the line relay R100 was initially energized in order to prevent the line relay R100 from being attracted when the communication is released. When R100 releases it opens by RA103 a point of the path by which the earth is applied to the starting conductor 091 and a point of the circuit for the excitation of its lower winding. By RA101, it establishes a point of the line circuit ending at station A of the calling subscriber and, by RA102, it opens the shunt placed on the reinforcement pallet to work RA112.

   When R300 releases shortly after the attraction of R310 a circuit is established by RA304 to excite the upper winding of R20 this circuit starting from earth at C76 through RA304, C77 and the upper winding of R20 towards the negative. The relay R20 by attracting establishes by RA21 and RA22 an obvious circuit for the excitation of the distribution relay R30, the latter relay attracting in its turn so that the following researcher-connector link circuit which is free is seized by the following calling line , all taking place in the manner described in detail below.



   When the earth is removed from the start conductor 091 by RA113 of the cut-off relay R110, the standby circuit

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 pull of relay R210 slow on release, described above opens and this relay releases to remove by RA211 the earth of the C78 conductor, Before this takes place however, a multiple earth is applied to the indicated conductor due to the operations of some of the relays shown in FIG. 3, Therefore immediately after the attraction of R300 a circuit is established by RA311 to energize the pass relay R390, this circuit leaving the earth in RA351 through C337, RA511, C338, RA336, 0339 and the winding of R390 to negative.

   The relay R390 being energized by the circuit indicated above attracts all its armature vanes and puts them in contact with their respective contact blades. This last operation results from the application of the earth coming from.



  RA390 ′ to conductors C76 and C78 ′ in order to keep R20, R180, R150, R140 and R110 attracted independently of the situation of R210 included in the starting devices shown in fig. 2.



   Consequently, the finder-finder is kept in its working position and the starters and distributors are released so that they can be used later.



   Routing of the communication to the operator's station in the control office.



   As soon as the R390 pass relay pulls in, circuits are established to energize the R380 switch relay and the R420 release delay relay. The first of these circuits starts from the earth in RA671 through C364, RA392 ', C374' and through the coiling of R380 towards the battery. The second indicated circuit, namely that of R420, starts from the ground in RA398 through C359, RA458 and the winding of R420 towards the negative.

   When the switching relay R380 attracts, it prepares circuits described below for the energization of the group selection relays R70, R590, R370, R330 etc according to the pulses transmitted by the first digit emitted by the senna.

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 860 pulse generator located at the operator's station in the central office. The R420 relay by attracting, establishes by RA423 an obvious circuit to energize the slow relay at the R430 pull.



  Through its RA421 and RA422 armature pallets and their associated contacts RC426 and RC428, respectively, the R420 relay establishes a circuit to energize R830 which is part of the central office operator plague control units. This last circuit starts from the earth in RC426 via the components RA421, RA401, RC402, C444, the winding of the repeater 844, RA822, the lower winding of R830, the winding of the repeater 845, 0445, RC405, RA404, RA4? 2, RC428 and through resistor 428 'to negative. Due to the energization of the circuit shown above, R830 attracts to establish by RA831 an obvious circuit for the lighting of the signal lamp 890.

   By RA832 the R830 relay establishes an obvious blocking circuit for itself.



     Soon after the excitement and attraction of R830, the R430 relay attracts for. interrupt, by RA437 and RA438, the operating circuit of R420. By means of its RA438t armature pallet, the R430 relay establishes a blocking circuit for itself starting from the earth in RA492 via C476 'and the winding of R430 towards the negative. By RA439 this relay prepares another blocking circuit for itself starting from the earth and kept open by RA482.

   By means of its reinforcement pallets RA431 to RA434 inclusive, the relay R430 interrupts the pulse circuits described below at several points, to energize the supervision relays R700 to R740 inclusive in order to prevent these relays from being influenced. during the transmission of pulses to the connector selection relays.



   Shortly after the attraction of R430 and the resulting interruption for the operating circuit of R420, this last relay releases to then prepare, by its reinforcement pallets RA421 and RA422 and their respectively associated contacts RC425

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 and RC427, the circuit connecting the station of the calling subscriber A to the station of the operator 800. The operator, noting the lighting of the signaling lamp 890, is warned that her attention is required.

   By maneuvering her key 810 into its working position, she can establish the conversation circuit between her set 800 and the set of subscriber calling A and place the common control equipment located in the secondary office in conditions such as 'it can receive the pulses which will be transmitted to it by the pulse generator 860. Consequently when this key is operated in its working position, a circuit is established by the switching blade 817 to energize the relay R820, this relay attracting RAS23 to open the blocking circuit of R830 at one point.

   This last relay releases its RA832 armature pallet to open its blocking circuit at another point and, through its RA831 armature pallet, interrupts the circuit for lighting the signaling lamp 890. By its armature pallets RAS21 and RA824, the R820 relay by attracting establishes circuits for the excitation of the relays R450, R460 and R470 included in the control equipment of the remote office.

   The
 EMI20.1
 first of these circuib3-lD5-rt of the earth given by the switching blade 818 via the impulse springs 861 and 862, the springs 872 and 873 of the key 870, C826, the springs 812 and 813 of key 810, RA821, RA822, the repeater winding
 EMI20.2
 tor bzz4, 0444, I-W'-102, Réi, 201, RA421,:

  tC125, 0448, the winding of the repeater 455, the lower winding of R440 and through the winding of R450 to the negative, The second of the circuits indicated above, that is, that of the excitation of R460 and R470 in series leaves from the earth to the switching spring 818 of the key 810 via the impulse springs 861 and 862, the springs 874 and 875 of the key 870, the springs 883 and 884 of the key 880, C825, the springs 814 and 815 of the key 810, RA824, the repeater winding 845, C445, RC405, RA404 ..

  <Desc / Clms Page number 21>

 



   456 RA422, RC427, 0449, the lower / repeater winding 454, the upper winding of R440 and through the windings of R460 and R470 in series to the negative. Although the two windings of R440 are energized this relay does not attract the two windings being connected in opposition to allow the attraction of the relay to take place only when one of them is energized while the other is de-energized .



   When the relay R450 attracts according to the excitation which it receives by the circuit indicated above, it establishes by RA451 an obvious circuit for the excitation of the relay R480 with release delay. By its RA452 armature pallet, the R450 relay opens at one point the circuit indicated above for the excitation of the R40 and R600 relays in parallel and, by its RA453 armature pallet, it opens the circuit at one point for the excitation of relay R630 for controlling the ringing current.



   The relay R460 by attracting interrupts in RA461 a point of the circuit indicated above for the energization of the monitoring relay R620. When R470 attracts because of its excitation in series with R460, it prepares by its armature pallet RA471 a point of the circuit indicated above for the excitation of R620, by its armature pallet RA472 it establishes a multiple circuit for release delay relay R480 and it interrupts a point of the circuit indicated below with its armature paddle RA473 for the energization of the relay R640 for controlling the ringing current.



   Shortly after the attraction of R450 to establish a circuit for the energization of R480, this last relay attracts to establish, through RA482, another obvious blocking circuit to keep R430 attracted independent of the release delay relay R490.



  Using its RA483 armature paddle, the R480 relay interrupts the circuit indicated below at one point to excite R340 when the finder-connector link circuit is released by the operator.

  <Desc / Clms Page number 22>

 trico from the contrai office. By its armature pallet RA481 the relay R480 establishes an obvious circuit for the excitation of R490 and this last relay attracts in its turn to prepare by RA491 a point of the circuits for the excitation of R40 and R50, and to interrupt by RA492 the initial blocking circuit of R430, as well as to prepare by its armature pallet RA493 a circuit indicated below to energize the switching relay R690 after the operation of selection and test of the called line,

   Using its RA494 armature pallet, the R490 relay prepares a point of the circuit indicated above to excite R540 included in the control equipment of the researcher-connector link circuit shown in fig. 1, 3 and 5 and by its RA495 armature pallet it opens at one point the circuit indicated below for the excitation of R280 forming part of the starting devices shown in fig. 2.

   By means of its RA497 armature pallet, the R490 relay prepares a circuit indicated below for the excitation of R740 and by RA 496 it opens at one point the common part of the circuits for the initial excitation of the group and unit relays researchers, in order to prevent a second link circuit from coming into play before the common control equipment of the link circuits shown in FIGS. 4, 6 and 7 be released.

   With the control equipment forming part of the secondary office and belonging in a common way to all the link circuits, provided that it is in these conditions, it is prepared to receive the impulses transmitted by the generator. 860 pulses located at the central office switch position so that the group and unit relays of the connector choose the line called 575.



   Formation of the number of the called line.



   As indicated above, as soon as the attendant has maneuvered the key 810 into its working position, a conversation circuit is established between the attendant set 800 and the

  <Desc / Clms Page number 23>

 station A of the calling subscriber. -This circuit includes line 911 of the calling subscriber, common line 156 of the link circuit, line 189 of the link circuit, line conductors 0347 and 0348, conductors of link circuit 0352 and 0353, conductors 0463 and C464, repeater 454, control junction '443, repeater 840 and the line conductors leading to the operator station. With this circuit established, the operator can converse with the calling subscriber to obtain the information necessary to establish communication with the called station.

   In the present case where it has been assumed that calling station A wishes to put in conversation with station B, the operator of the central office activates her pulse generator device according to the number corresponding to line 575 to to which station B is connected, so that the connector shown in fig. 5 choose this line. It will be observed by referring to FIG. 5 that the number of the called line 575 is 20 since, this line is the tenth line of the second group of ten lines.



   At the start of the first pulse of the first digit emitted the operating circuits indicated above for relays R450, R460 andR470 are interrupted by the pulse springs 861 and 862 of the pulse generator 860. Releasing the relay R460 prepared by -its pallet armature RA461 the circuit indicated above to excite R620, a point of this circuit being opened simultaneously by RA471 of R470. By means of its armature pallet RA473, this last relay prepares a point of the circuit for the excitation of R640, this circuit being kept open by the armature pallet at rest RA442 of the differential relay R440. By the two armature pallets RA451 and RA472 forming part of R450 and R470 respectively, the operating circuit of R480 is opened.

   Due to its delay in release, however, this relay remains attracted throughout the

  <Desc / Clms Page number 24>

 pulse duration. When releasing, the R450 relay establishes, through its RA452 armature paddle, a circuit for energizing the R40 release delay relay and the lower winding of the R600 pulse relay in parallel, this circuit starting from the earth in RA441 via RA452 and RA491 to
0208 where it splits, one of the branches passing through the winding of R40 towards the negative and the other branch passing through the intermediary of RA611, and RC6l2 and the lower winding of
R600 towards the negative.

   The two relays R40 and R600 attract, the first of them to establish by RA42 an obvious circuit for R50 and the second to prepare by its' pallet of reinforcement
RA605 a circuit shown below for the excitation of the upper windings of R600 and R610 in parallel. The pulse relay R600 by attracting also prepares, via RA606, a path to bypass the lower winding of R610, this path being / established. during the attraction of R50 and starting from the earth in
RA52 via C497, RA606, the lower winding of R610, RC612, RA611 and the return to earth in C208.

   The R50 relay by attracting also prepares by its armature pallet RA54 a test circuit shown below to energize the busy relay R650 in the event that the called line just chosen is found to be busy. Through its RA51 armature paddle, the R50 relay establishes a circuit passing through C489 and RA674 to excite R660, the latter relay immediately attracting to short-circuit through RA661 and RC662 the winding of R670. This short-circuit path starts from the earth at RA51 via C489, RA674, the winding of R670, RC662, RA661,
0485 and return to earth by RA493.



   In addition, to perform the functions described above, the relay R600 which receives the pulses establishes by drawing, by RA604, a circuit for the excitation of the first relay R70

  <Desc / Clms Page number 25>

 for group selection forming part of the connector shown in fig. 5. This circuit starts from the earth at RA317 via C369, RA553, RA573, RA593, C356 ', RC386', RA387,
 EMI25.1
 0367 ', RA395', CS67, .RA604, C368, RAS96 ', 0368', RA3,, 38, RC389, C358 'and through the winding of R70 to the negative.

   By its armature paddle RA601 and its associated contact R603, the pulse relay R600 prepares a circuit, indicated below, for the energization of the third group selection relay R570, this circuit being kept open by the paddle d 'AR594 arming of the second group selection relay R590. This last circuit is then prepared by RA57 during the attraction of R50 at the start of the first pulse of the first digit. It is understood that due to the delay in releasing the relay R40, this relay and the relay R50 are kept attracted throughout the duration of any train of pulses constituting a determined emitted figure. Through relay R40 the circuits indicated below are opened in RA43 to apply the busy tone current to the line 911 of the calling subscriber and to the control junction 443.



   As indicated previously the two relays R600 and R610 are connected and arranged in such a way that R600 attracts at the start of each odd pulse, that R610 attracts at the end of each odd pulse, that R600 releases at the start of each even pulse and that R610 releases at the end of each even pulse. Therefore as stated above R600 attracts immediately when relay R450 released at the start of the first pulse of the first digit.



  At the end of this pulse, when the pulse springs 861 and 862 are closed again to cause the re-energization of R450, R460 and R470, the short circuit path shown above for the lower winding of R610 is interrupted. in RA452 and allows this winding to be excited in series with

  <Desc / Clms Page number 26>

 the lower winding of R600. When this takes place, R600 remains attracted and R610 attracts to prepare, through RA611 and RC613, the circuit indicated above for the excitation in parallel respectively of the upper windings of the two relays R600 and R610.



  This circuit is established at the start of the second pulse when R450 releases its reinforcement pallet RA452 again, 'and starts from the earth to the reinforcement pallet RA441 via RA452, RA491, C208, RA611 to PC613 where it splits, one branch passing through the top winding of R610 to the battery and the other branch passing through RA605 and the top winding of R600 to the negative. The R610 relay remains attracted but the R600 relay being mounted in differential releases when its two lower and upper windings are both energized.

   When RA605 falls back, the circuit for energizing the upper winding of R600 is open and when RA606 falls back a second point is open in the circuit for energizing the lower winding of R600 and the lower winding of R610 in series. In order to make the R600 relay very quick to release for the start of each even pulse, its upper winding is constructed so that the flux it produces is markedly predominant over that supplied by the lower winding.

   At the end of the second pulse when R450 attracts again, the blocking circuit of relay R610 is interrupted by RA452 and R610 releases its armature paddle RA611 so that the two relays R600 and R610 release under the conditions that existed before the first impulse is transmitted to them. It will obviously be understood that the series of operations for releasing these two relays is repeated as described above for each successive pair of pulses transmitted to them.



   Due to the repeated attraction and release of R600

  <Desc / Clms Page number 27>

 following the pulses transmitted to them, the group selection relays R70, R590, R570 and R550 are attracted successively and release according to these pulses. Therefore it was noted above that the relay R70 was energized and attracted at the start of the first pulse of the first digit emitted.



  This relay by attracting prepares by RA71, a circuit for the energization of the group switching relay R60, this last relay not being energized, at this moment, because the earth is not given by C363 'to cause of resting reinforcement pallets RA628 and RA697. With its RA72 armature pallet, pulling relay R70 establishes a blocking circuit for itself starting from earth in RA317 through 0369, RA553, RA575, RA593, RA72 and the winding of R70 towards the negative.

   By its armature pallet RA73 the relay R70 by attracting prepares a circuit for the excitation of the second group selector relay R590, this circuit being established by the release of the pulse relay R600 at the start of the second pulse and starting from the earth in RA57 via C469, RA601, RC602, 0366, RA594: ', C366', RA384, RC385, C354 ', RA73 and the winding of R590 towards the negative.



   The second group selection relay by attracting, by RA593, interrupts the blocking circuit indicated above for R70 so as to release this last relay to interrupt by RA71 the point of the circuit prepared previously for the excitation of the relay R60 '. and to interrupt by RA73 the initial circuit by which the relay R590 is energized. By RA72 the relay R70 interrupts another point of the blocking circuit serving for itself and indicated above. Before R70 falls and Immediately upon the attraction of R590, a blocking circuit is established for this last relay, this circuit starting from the earth in RA317 via C369, RA553, RA573, RA592 and the en- bearing of relay R590 towards negative.

   By the arma-

  <Desc / Clms Page number 28>

 ture RA591 the relay R590 prepares a circuit for the excitation of R580 from the earth in C363 'and by RA594 it prepares a circuit for the excitation of the third group selection relay R570.



   At the start of the third pulse, when the pulse relay R600 attracts again, the circuit indicated last is established by RA601 and RC603 and goes from ground to RA57 through C469, RA601, RC603, C565 , RA393 ', C365', RA381, RC382, C352 ', RA594 and the winding of R570 to the negative. The relay R570 by attracting establishes by RA572 an obvious blocking circuit for itself, it interpupts by RA573 the blocking circuit for the previous group selection relay R590, it prepares by RA571 a circuit for the excitation of the group switching relay R560, and it prepares by RA574 a circuit for the energization of the next group selection relay.

   From the above description it emerges that each group selection relay is energized at the start of the pulse to which it corresponds. For example R70 is excited and attracted at the start of the first pulse, R590 at the start of the second pulse, R570 at the start of the third pulse, etc.



  Each of these attracting relays causes the release of the previous group select relay and prepares a circuit for the corresponding group select relay and the group select relay immediately following it. Each of the group selection relays then operates to prepare the test circuits for each of the lines of the group to which it corresponds. For example the first group selection relay R70 by attracting prepares by its armature palects RA74, RA75, RA76, etc., the test circuits for lines 307, 508, 509, etc., forming part of the first group.

   Likewise the second group selection relay R590 by attracting prepares by its armature pallets R595, RA596, RA597, etc., the circuits to determine

  <Desc / Clms Page number 29>

 if the lines 911, 506, 575, etc ,, are free or busy, these lines being part of the second group of lines corresponding in one to this group selection relay. It is understood that / - finder-connector link circuit in which the lines leading to it are divided into ten groups, that ten group selection relays will be used and will attract successively as the first digit goes from 1 to 0, to select a group of lines including the desired calling line.

   In the present case, where the called line 575 is part of the second group and the first digit has only two pulses, the group selector relay R590 will be pulled at the end of the digit so that a circuit is prepared. for energizing the corresponding group switching relay R580. Since the digit contains an even number of pulses, the, two relays R600 and R610 both release.



   At the end of the pulse train constituting the first digit, the pulse springs 861 and 862 are closed again to cause a new attraction of R450, R460 and R470 and remain closed for a time sufficient to allow the release. subsequent to R40 and R50. Therefore when R450 attracts, it interrupts with RA452 on. circuit shown above by which R40 attracts. After a certain time, R40 releases to interrupt by RA42 the operating circuit of R50. Releasing relay R50 opens through RA51 the shunt located at the terminals of winding R670 and through RA 52 interrupts at one point the circuit for energizing the respective lower windings of R600 and R610 in series.

   By RA57, relay R50 opens at a point the common part of the circuits by which the group selection relays are initially energized, in order to prevent any untimely attraction of one of these relays after the release of R600 and R610, in the case where these last two relays are energized at the end of a

  <Desc / Clms Page number 30>

   particular pulse rain. By releasing the relay R50 by RA54 and RC55, it prepares a circuit for the energization of the line switching relay R690.



   When the path of the short-circuit of the winding of R670 is interrupted by RA51, the two relays R660 and RS70 are energized in series by a circuit starting from the earth in RA493 via C485, RA661, RC662, the winding of R670 and winding of R660 to negative. The R670 relay attracts when energized in series with R660 and through RA674 it interrupts the circuit shown above by which R660 was initially energized. By means of its RA671 armature paddle, relay R670 interrupts at one point the circuit indicated above for the pulse switching relay R380.

   This last relay on releasing prepares circuits indicated below to successively energize the unit relays R550, R520, R510, R300, etc., according to the pulses constituting the second digit emitted by the pulse generator 860.



   At the start of the first pulse of the second digit, when the operating circuits described above for relays R450, R460 and R470 are again interrupted by pulse springs 861 and 862, these relays release to cause a new one. attraction of R40, R50 and the R600 pulse relay.

   From the previous description it will be seen that during the duration the pulses constituting the. second digit the two relays R600 and R610 follow the series of operations described above; that is, R600 attracts at the start of each odd pulse, R610 attracts at the end of each odd pulse, R600 releases at the start of each even pulse, and R610 releases at the end of each even pulse,
At the start of the first pulse of the second digit when R600 attracts, a circuit is established by RA604 to energize the first relay of R550 units, this circuit starting from ground

  <Desc / Clms Page number 31>

 in RA317 via C379, RA505, RA515, RA525, C357 ', RC387', RA387, C367 ', RA395', 0367, RA604,

     C368, RA396 ', 0368', RA388, R0389 ', C359' and the winding of R530 to the negative.



   By its reinforcement paddle RA534, the relay R530 by pulling establishes a blocking circuit for itself starting from the earth in RA317 and enclosing an obvious part of the circuit indicated immediately above, By its paddles d '- armature RA551, RA532 and RA533, the relay R530 connects the link circuit line 549 to the common link circuit line 517 to prepare a test circuit for the calling line 911. By RA536 the relay R530 prepares a circuit for energizing the second units relay R520, this circuit being established at the start of the second pulse of the second digit when R600 releases due to the differential energizing of its windings in the manner described above.

   This last circuit starts from the ground in RA57 via 0469, RA6.01, RC602, C366, RA394 ', 0366', RA384, RC386, RC355 ', RA536, and the winding of R520 towards the negative. The R520 relay by attracting interrupts by RA525 a point of the blocking circuit indicated previously for the first unit relay R530 and, by its armor pad RA524 establishes an obvious blocking circuit for itself.



  Relay R530 thereby releases all of its armature paddles to interrupt by RA536 the initial operating circuit of the second unit relay R520 and to disconnect common line 517 from the link circuits of line 349 of the link circuit. With the R520 units relay attracted, a circuit is prepared to test the conditions of the subscriber line 506.



   At the start of the third pulse, when the relay R600 receiving the pulses is pulled again, the circuit shown above for the energization of the third unit relay R510 is established, this circuit starting from the ground in RA57 through the 'intermediate of 0469, RA601, RC603, C365, RA393', C365 ', RA381,

  <Desc / Clms Page number 32>

 RC383, C353 ', RA526, and the winding of R510 to the negative.



  Relay R510 by attracting Immediately interrupts the blocking circuit for the second unit relay R520 through its RA515 armature pallet and establishes by RA514 a blocking circuit for itself. By its RA511, RA512 and RA513 armature pallets this third unit relay prepares a circuit to test the conditions of the third line of the second group and by its RA516 armature pallet it prepares a circuit for the excitation of the fourth relay units,
From the immediately preceding description it will be seen that the unit relays are successively drawn according to the pulses constituting the second digit and that at the end of this digit, only one of these relays corresponding to the number of the last pulse of the second digit is excited.

   In the case presently assumed in which the line called 575 is the tenth line of the second group of lines, the second digit as has been noted will include ten pulses so that at the end of this digit the tenth unit relay R500 is excited and the control conductor C559 of the called line 575 is connected through the armature paddles RA597 and RA505 to the control conductor C362 'of the line 349 of the link circuit. It will be noted that the group selection relay R590 is attracted and that the units relay R500 is attracted and / or blocked by guard circuits having a common part and starting from the earth in RA317, these circuits being kept established independently of the control equipment common to all link circuits.



   At the end of the second digit, the relays R450, R460 and R470 attract again and the relays R40 and R50 as well as the pulse receiving relays R600 and R610 release if they were attracted, all in the manner described above and relating to operations that take place after sending the first digit

  <Desc / Clms Page number 33>

 by the post of the operator at the central office. The sequence of operations which take place from this moment depend on the conditions of the called line which are determined by the potential existing on its control conductor.

   As indicated in an earlier part of the description relating to the operations of the researcher represented in FIG. l, if the called line is occupied, its control conductor is marked by an earth while if the called line is free a negative potential is presenta this potential being applied to the control conductor from the cut-off relay associated with the line and corresponding to relay R110 associated with the calling line 911.



   Operations occurring when the called line is free.



   Suppose the called line is free, the relays R40 and R50 release soon after the end of the second digit to establish a circuit for the energization of the upper winding of the switching relay R690, this circuit going from the negative to the associated cut-off relay to the line called 575 through 0559, RA597, 0578, RA503, 0362 ', RA399, C362, RA54, RC55, 0484, the upper coil of R690,. 0614 and 0485 to land in RA493. Due to the excitation of its upper winding by the circuit indicated above, R690 attracts to establish by RA693 a blocking circuit for itself, this circuit starting from the earth in RA493 via C485, 0614,

   RA693 and the lower winding of R690 to negative. By RA691 and RA692 the relay R690 prepares a conversation circuit containing the repeaters 616 and 305 between the calling line and the called line, and a conversation circuit containing the repeater 454 and 616 between the operator set 800 and the called line . By its RA694 and RC696 armature pallets, the R690 relay opens at another point the circuit indicated below for the excitation of R340 and by the same armature pallet and

  <Desc / Clms Page number 34>

 RC695 it prepares a point of the circuit for the excitation of R330.



  Through its RA697 armature paddle, the R690 relay provides ground to C353 to establish a circuit for energizing the selected group R580 switching relay. This circuit starts from the earth at RA697 via C363, RA391 ', C363', RA591 and the winding of R580 towards the negative.

   When the group switching relay R580 attracts, it connects through its reinforcement paddles RA581 to RA588 inclusive, the line conductors of lines 911, 506, 575, etc., included in the selected group to common lines such as for example lines 517, 518, 519, etc, This operation causes the connection of line 575 to the line of the link circuit 349 to establish conversation circuits between the calling and called stations and with the extension 800 of the operator of the central office . With the system in these conditions, the operator can listen to see if the called line is or is not used by two sets, each of which has their own device connected to it.

   If the called line is busy, the attendant can keep the call on hold until the previous call set up is terminated, she can join the call in progress, or release the call as described. below. If, on the other hand, the called line is free, the operator can proceed to call the requested set among the sets connected to it.



   Call of the requested extension.



   For this purpose, as we have seen previously, arrangements are made so that the inrush current can be transmitted either on one of the two line conductors of the line terminating at the station of the requested subscriber to a calling device set up. earth and connected to it, either on the two line conductors to a bell connected to the two line conductors. Consequently, if the appeal organ of the requested station B

  <Desc / Clms Page number 35>

 is connected between the positive line conductor 0558 and the earth or if it is connected to the terminals of the two line conductors 0557 and C558, the attendant can transmit the appropriate call code ', by activating her key 880 of repeatedly in his working position.

   Whenever springs 883 and 884 of this key are opened, ground to spring 818 is removed from the positive line conductor of junction C445 to open the operating circuit of relays R460 and R470 to cause these relays to de-energize and of the upper winding of the differential relay R440. As a consequence, R440 attracts to interrupt by RA441 a point of the excitation circuit of R40 and R600 in parallel, and to prepare by RA442 a circuit for the excitation of the bell relay R640. This latter circuit is established by RA473 when R470 is released.



  The relay R640 by attracting prepares by RA649 a circuit kept open by RA661 and RC663 for the excitation of the relay R320. By RA641 and RA645 the R640 ringing relay establishes a circuit to apply the ringing current to the line conductors of the called line. If the call device of station B is connected between the positive line conductor and the earth, the path that the current executes leaves from a terminal of the call generator via C609, RA645, 0355, RA394, 0344, RA502, C577, RA588, 0558 through-call body to land.

   If, on the other hand, the station device called B is connected to the terminals of the conductors of lines 0577 and 0578, this route instead of returning to the earth after the call device, returns to the earthed terminal of the inrush current generator via RA641 and via 0557, RA587, 0576, RA501, 0343, RA393 and 0354.



   By its armature paddles RA642 and RA646 and their respective associated contacts RC644 and RC648, the R640 inrush relay by attracting establishes an obvious path to divert some of the inrush current through the capacitors 647 'and 643. ' towards

  <Desc / Clms Page number 36>

 the receiver of the operator leg and to the receiver of the station of the calling subscriber in order to indicate to them that the requested station is called. It is understood that the call relay R640 is repeatedly energized and de-energized according to the characteristic call code of the set of called subscriber B and that the operations indicated above take place during each call interval. time when R640 is excited.

   At the end of the operation of sending the ringing current as described above, the call key 880 at unstable working position is returned to its normal position so as to re-establish the circuit for the. excitation of the top winding of R440 and of the relays R460 and R470 in series. This results in the release of the R640 inrush relay which has the effect of permanently disconnecting the generator from the inrush current of the called line and re-establishing the conversation circuits indicated above between the attendant set, calling subscriber set and called subscriber set.



   In the event that the calling device of the called station B is connected between the negative line conductor of the called line 375 and the earth, this device can be put into operation by the operation by the operator of the key d. 'call 870 in a manner corresponding to the characteristic call code of the called station B.



  Each time it activates the key in its working position, the circuit indicated above and starting from the earth taken by the spring 818 is interrupted by the switching springs 872 and 873 which has the effect of causing the de-energization of R450 and of the lower winding of the differential relay R440. With its lower coil de-energized, relay R440 draws exactly in the manner indicated above to prepare by RA442 a circuit for energizing the call relay R630, this circuit being established by RA453 when R450 is released and starting from there. earth in RA442 via RA453, 0476

  <Desc / Clms Page number 37>

 and winding R630 to negative.

   When R630 attracts it prepares by its armature paddle RA639 a circuit for the excitation of R320 and by its armature paddles RA631 and RA635 and their respective associated contacts R0633 and RC637, applies the ringing current Ç to the line of the subscriber called to operate the call unit connected to the terminals of the line conductors 0557 and 0558 or between the negative line conductor 0557 and the earth.



  If the call unit is connected to the terminals of the line conductors, the inrush current circuit is exactly the same as shown above and is established following the energization of the R640 call relay. If, on the other hand, this call device is connected between the negative line conductor 0557 and the earth, the circuit traversed by the current starts from one of the terminals of the inrush current generator via 0609, RC633 , RA631, C354, RA393, 0343, RA501, 0576, RA587, 0556 and through the call unit from station B to land. Part of this current is diverted through capacitors 634 'and 638' via the circuit connecting the attendant set and the receiver of this set in order to indicate to the attendant that the called set is called.

   At the end of the calling operation when the key 870 is returned to its normal position, the circuit shown above for energizing the lower winding of R440 and the relay R450 in series is established again. When R440 and R450 attract the operating circuit of R630 is interrupted and this last relay releases to permanently disconnect the generator of the inrush current from the line conductors terminating at the station of the called subscriber, and to restore the lines. conversation circuits indicated above connecting the calling and called sets to the operator's set.



   With the system in these conditions, the operator can simply maintain her position in the conditions that exist

  <Desc / Clms Page number 38>

 at the end of sending the ringing current, keep your device connected to the existing communication between the calling lines and called to monitor the conversation which continues after the called extension answers. She can also maneuver her key 870 to bring it into the monitoring position in order to establish a conversation circuit between her device and the called party's station to the exclusion of the calling station.

   As another possibility it can place the key 810 in its normal position in order to cause the release of the equipment common to all the link circuits and / to prepare it to be used later for other calls made by lines terminating at the secondary office. 910.



   Monitoring.



   If the operator wishes to converse with the called subscriber to the exclusion of the calling subscriber, she can place the key 870 in its monitoring position as soon as the call ends.



  Hence the springs 874 and 875 are opened to introduce the resistor 876 of the circuit indicated above to drive the top winding of R440 and the windings of R460 and R470 in series. Resistor 876 is such that when introduced into this circuit, only marginal relay R460 is influenced, with differential relay R440 remaining released and relay% 70 remaining engaged. The marginal relay R460 releases, however, to establish by RA461 a circuit to energize the overshoot relay R620, this circuit leaving the earth in RA461 through RA471, RA41, C496, and the winding of R620 towards the negative.

   When energized by the circuit indicated above, R620 attracts to open by RA627 a point of the circuit indicated below for the energization of the occupancy relay R650 and to apply by RA628 a multiple earth to the conductor C363. . By means of its armature pallets RA621 and RA624 and their respective associated contacts RC622 and RC625, the relay R620 disconnects

  <Desc / Clms Page number 39>

 the calling party's apparatus A of the circuit connecting the operator's set to the called subscriber's set. By its same armature paddles and their respective associated contacts RC623 and RC626, a direct continuous metal circuit is established between line conductors 0463 and 0464 and line conductors C558 and C557 of the called subscriber's line. .

   Consequently, the operator can converse with the called subscriber without the calling subscriber being able to hear the conversation.



   In order to re-establish communication between the calling and called lines after the R620 monitoring relay has been energized to exclude the calling party from the communication, the attendant simply needs to return key 870 to its normal position in order to short-circuit resistor 876 via springs 874 and 875 so that marginal relay R460 attracts again.



   Release of common control equipment.



   In normal operation, of the system the operator of the central office causes the return to the normal position of the equipment common to all the link circuits and located in the secondary office 910, immediately after she has made sure that the call was answered. For this purpose, the operator simply returns the key 810 to its normal position in order to cause the de-energization of R820. When this relay releases its armature paddles RA821 and RA824, the operating circuits shown above for relays R450, R460 and R470 are interrupted. These latter relays when releasing open the operating circuit for the R480 release delay relay which after a certain time releases to interrupt the operating circuit of R490.



   When R480 releases its reinforcement pallet RA482, the blocking circuit of R430 is interrupted and allows the last relay indicated to release and interrupt with RA438 'another point of its blocking circuit. By RA483 the R480 relay in

  <Desc / Clms Page number 40>

 releasing it establishes a circuit for the excitation of R330, this circuit leaving the earth in RA483 through RA494, C486, RA694, RC695, C357, RA396 and the winding of R330 towards the negative.



   The relay R330 by attracting immediately establishes by RA335 and RA336 a blocking circuit for itself, this circuit starting from the earth in RA351 through the intermediary of C337, RA311, C338, RA336, RA335 and the winding of R330 towards the negative .



  By RA333 the R330 relay prepares a circuit for the energization of the R340 release relay of the link circuit and establishes a circuit to keep attracted the R580 group switching relays which have been attracted independently of the relays forming part of the common equipment, link circuits. By RA331 and RA332, the relay R330 establishes an obvious conversation circuit, enclosing the repeater 305, between the calling and called stations this circuit being independent of that indicated above as leading to the common equipment shown in figs. 4 and 6 and comprising the repeater 305.

   Through its RA334 armature paddle, relay R330 applies an earth to C76 in order to keep closed the blocking circuits for the relays which are drawn into the finder shown in fig. 1. By RA336, the relay R330, by attracting, interrupts the operating circuit of the passage relay R390, the latter relay causing all its armature pallets to be released to disconnect the control equipment associated with the link circuit represented from the control equipment. control common to all the connection circuits and shown in fig.

   4, 6 and 7. By releasing the R390 changeover relay, by RA390 ', it interrupts the multiple terrestrial of C76, it interrupts by RA395a point of the operating circuit for R320 and it interrupts by its armature pallets RA391' to RA396 'including points control circuits for the relays forming part of the connector of fig. 5.

  <Desc / Clms Page number 41>

 



   As noted above, the R320 relay when releasing its armature paddles established. another circuit between the calling and called stations, and with the system under these conditions, the control equipment included in the researcher-connector link circuit in service is entirely separate from the equipment common to all the link circuits and shown in Figs. 4,6 and 7. On this subject it should be noted that the finder relays which are attracted are kept energized by their blocking circuit starting from the earth at RA334, and that the relays of the connector which are attracted , are kept energized by blocking circuits starting from the earth at RAS17 and RA333.



   When the R390 shift relay releases its RA398 armature paddle, the circuit as previously described by which RA420 was initially energized is opened to prevent re-pulling of this relay when R430 releases soon after the release of R480. Shortly after the release of R480, relay R490 drops out to interrupt the momentarily established operating circuit of R40 and R600 and to allow these two relays to release.

   By RA492 the relay R490 again prepares the blocking circuit of R450 this circuit being then kept open by RA438 '. By RA494 the relay RA490 opens a point of the circuit indicated above by which R330 was initially energized and by RA493 it opens the blocking circuit of the two relays R660 and R670 which are attracted and allows these two relays to release. Releasing RA 493 also opens a point in the R690 switching relay blocking circuit and causes that relay to release.

   By RA495 and RA496 circuits are prepared so that the starting devices shown in fig. 2 and distributor 80 allow the common equipment to be assigned to the next calling line, With the equipment in these conditions a conversation circuit is established between the calling party.

  <Desc / Clms Page number 42>

 lant and the callee, and the common control equipment is ready to be used for another call.



   Operations that occur when the called line is busy.



   Before describing the release of the finder-connector link circuit used, it will be assumed that when line 575 is seized, this line is occupied by another call so that earth is present on control conductor C559. We will recall that the two relays R40 and R50 remain attracted for a short interval of time after the end of the second digit. When R500 is therefore attracted, a circuit is established to energize the occupancy relay R650, this circuit going from earth to C359 through
 EMI42.1
 from Ra597, C378, RA53, Cai6 'RAS9S, C562, RA54, RA53, 0478, RA627, C615 and through the winding of R650 to the negative.



  Shortly after energizing the occupancy relay, R50 releases to establish a blocking circuit for R670 via RA53 and RA56. This circuit starts from the earth in RA493 via C485,
 EMI42.2
 RA653, 0479, RC56, RA53, 0478, RA6S7, 0615 and ¯ through the winding of R650 to negative. Since the earth is present on the control conductor 0559 of the called line, the upper winding of the switching relay R690 is short-circuited when R50 is released and this relay remains in its rest position.

   The busy relay R650 by attracting prepares through RA652 and RA651 circuits to conduct the busy tone through the 443 control junction to the attendant set, and through the searcher and the line of the calling subscriber to this subscriber's set.



  These circuits are established by RA43 shortly after the attraction of R650 and upon release of R40. It follows that the attendant can either maintain communication with the calling line and monitor the communication previously established with the called line, or release the searcher in service.

  <Desc / Clms Page number 43>

 and control equipment common to all the finder-connector link circuits as desired.



   In order to monitor the communication previously established # with the called subscriber, the attendant just has to put her key 870 in the monitoring position in order to trigger the pulling of the monitoring relay R620 / exactly as described. above. The pulling of the monitoring relay by RA627 interrupts the operating circuit for the occupancy relay 650 and causes the release of the latter relay and disconnects the busy tone current from the circuits leading to the attendant set and to the extension. of the calling subscriber. When the occupancy relay R650 releases, its previously indicated blocking circuit is opened by RA653 so that the occupancy relay cannot be energized after that when the monitoring relay R620 is de-energized.

   When the monitoring relay R620 attracts it establishes through RA628 the circuit indicated above for the energization of the group switching relay R580 and, by its armature paddles RA621 and RA626 it prepares a conversation circuit between the attendant set and called set. This circuit is established by RA587 and RA588 when the group switching relay attracts shortly after the attraction of R620.



   When the previously established communication with called station B is finally terminated, the earth is removed from the 05159 control conductor of this line which is replaced by the negative.



  This negative is given by the circuit indicated above to excite the upper winding of the switching relay R690, the latter relay immediately drawing its armature paddle RA693 to establish its blocking circuit described above.



  The attendant can then proceed to call the requested set B in exactly the same way as described above.



  If the operator does not wish to keep the call

  <Desc / Clms Page number 44>

 until the communication previously established with the called line is terminated, it can cause the release of the searcher-connector link circuit in service by returning the key 810 to its normal position. This results in the de-excitation and release of R450, R460, R470, R480 and R490 all as described above followed by the release of R660 and R670. During this series of operations and when R480 releases to interrupt by RA481 the excitation circuit of R490, a circuit is established to excite R540.

   This circuit starts from the earth at RA483 through RA494, 0486, RA694, RC696, C358, RA397, C343 ', and through the winding to negative. When R340 attracts it establishes by RA341 a multiple circuit to block R390 which is attracted and by RA392 it establishes a circuit for the excitation of R350. When R350 attracts it interrupts the multiple circuit of R390 with RA351; the circuit of the latter relay being fully open when R340 releases immediately after the release of R490 which interrupts the operating circuit of R340 by RA494.

   When R390 releases its armature paddles, the blocking circuit of R310 and of the other relays R140, R150, R10, R20 and R180 which are pulled and which form part of the finder in fig. 1, is interrupted by RA390t which allows these relays to release. The relay R310 on falling interrupts by RA311 the circuit by which R390 was initially excited so that the latter cannot be re-energized when R350 releases RA351 shortly after the release of RA511. By RA517, releasing relay R310 removes the protective earth of C369 thereby interrupting a point of the blocking circuit of relays R500 and R580 which are attracted and which form part of the connector.

   When R590 releases, the blocking circuit of R580 is interrupted by PA391 'which causes the release of the last indicated relay. Releasing relay R20 opens via RA21 the operating circuit of distributor relay R30 and

  <Desc / Clms Page number 45>

 therefore this last relay releases and prepares by RA32 and RC33 the starting circuit to operate the seeker shown so that it goes in search of the next calling line. By RA31 the chain of the circuit for energizing the occupancy relay R200 when all the connection circuits are occupied, is open at one point, and by RA32 and RC34 a point is open in the starting circuit going to the next assigned researcher-connector link circuit.



  Therefore, the finder-connector link circuit is released and ready to be used for further calls. When R490 drops out after releasing R480, it does not fulfill, the functions only / described previously regarding the release of the common equipment after the establishment of a communication to a free called line, but interrupts by RA493 a point of the blocking circuit indicated above by which the occupancy relay R650 is kept attracted. Consequently, the equipment common to the researcher-connector link circuits returns to standby and is ready for a new use.



   Release of established communication.



   In the event that the communication is established between the calling and called lines and it is desired to terminate the communication at the end of the conversation, either subscriber can release the searcher-connector link circuit used. by activating the generator at his station so that the current is transmitted to one or the other of the relays operating under alternating current R360 and R370. When one of these two relays is energized, it attracts to establish a circuit for the energization of the slow pulling relay R340, this circuit starting from the earth at RA333 via RA361 or RA371, C343 'and the winding of R340 towards the negative.

   The R340 relay by attracting establishes by RAS42 an obvious circuit for the excitation of R350 and applies by RA341 a multiple earth to C337 forming part of the circuit of

  <Desc / Clms Page number 46>

 blocking of R330. When R350 attracts it opens through RA351 the multiple blocking circuit of R330 so that when R340 releases at the end of sending the ringing current and when its circuit is interrupted by RA361 or RA371 the remaining blocking circuit of R330 is interrupted by RA341. The relay R330 by releasing RA335 opens its blocking circuit at another point and by RA336 again prepares the circuit for the energization of the passage relay R390.

   By RA334 the relay R330 removes the guard earth of C76 in order to cause the release of the relays R310, R140, R150, R110, R20, R180 which are attracted and which are all part of the seeker, it removes the guard earth of C363 by RA333 'to open the operating circuit of the group switching relay R580 and make this relay release. When R310 releases it interrupts by RA311 the initial operating circuit of R390 so that when R350 drops out after a certain time, this circuit is not established, By RA517 the relay R310 removes the earth of C369 to interrupt the blocking circuits of R500 and R590 included in the connector of fig. 5 and to allow these relays to release.

   Releasing relay R20 opens through RA21 the operating circuit for distributor relay R30, so that this last relay releases and prepares by RA32 and RC33 the starting circuit to operate the seeker shown and so that it goes to finding the next calling line.



  By RA31 a point is opened in the circuit chain for the energization of the circuit of the occupancy relay R200 of all the connection circuits and by RA32 and RC34 a point is opened in the starting circuit going to the seeker-connector link circuit designated next. Therefore, the shown seeker-connector link circuit is fully released and ready for further use.

  <Desc / Clms Page number 47>

 



   Operation of the distributor and the starting device,
Referring now-more particularly to the operation of the distributor 80 and the starting device shown in FIG. 2, it was noted above that each time one of the secondary office finder-connector link circuits is seized, the distributor relay corresponding to this link circuit is energized. As a result, during the continuation of the operations which have just been described, the distributor relay R30 attracts after the excitation of R20 and shortly after the input of the link circuit. This distributor relay remains attracted until the communication concerning this link circuit is terminated. Relay R30 by pulling, establishes by RA31 a point in the circuit chain for the excitation of R200.

   Via RA32 and RC34, the distributor relay R30 connects 089 to 088 in order to designate the free searcher-connector link circuit which follows for the next calling line. Each distributor relay, corresponding to terminals 81, 82 and 83 is energized as soon as the corresponding link circuit is seized, so that 089 is successively associated with the control circuits of the respective link circuits as soon as they are taken individually and designated to come into play. As noted above, after the release of the communication comprising one of these link circuits, the corresponding distributor relay is de-energized, so that the link circuit is switched off. found again in the conditions to be used.

   Therefore if it is assumed that the first three connecting circuits corresponding respectively to R30 and that the distributor relays comprising the terminals 81 and 82 are occupied, so that the starting conductor C89 is connected to the distributor relay com- taking terminal 83, and the first link circuit corresponding to R30 comes to release, R30 releases immediately for

  <Desc / Clms Page number 48>

 reconnect by RA32 and RC33 the starting conductor C89 to 078 and to open by the same armature pallet and RC34 the connection of the starting conductor to the conductor of the last connection circuit corresponding to C78 from where it It follows that the link circuit shown is designated for the next calling line.



   In the event that all the link circuits of the secondary office come to be occupied at the same time, a chain circuit is established to energize the release delay relay R200, this circuit starting from negative at the lower terminal of the coil winding. R200 via C94, RA31, 087, the armature pallets corresponding to RA31 for the relays to which the terminals 81, 82 and 83 belong, and from there to the earth at 85 '. The relay R200 attracts when it is energized by the circuit indicated above in order to interrupt by RA201 a point of the common part of the starting circuits of the various link circuits.

   By RA202, the R200 relay prepares a point of the blocking circuit for R270 and by RA203 it establishes a circuit for the excitation of the upper winding of R280, this circuit starting from the earth in RA496 through the intermediary from RA439 ', 0204, RA495, 0205, RA203, 0210, RA275 and through the upper winding of R280 to the negative. Through RA204 and RC205, relay R200 prepares a point in the circuit for the application of busy tone current to control junction 443 leading to the attendant set.

   When R280 is energized by the circuit indicated above, it attracts to establish by RA282 an obvious blocking circuit for itself, and to prepare by RA281 a circuit indicated below for the excitation of R270. By RA284 it establishes a circuit passing through C292 for the excitation of R420 and by RA283 it establishes the circuit prepared previously to apply the busy tone current to the control junction leading to the ope-

  <Desc / Clms Page number 49>

 central office failure.,
When R420 attracts, it establishes by RA421 and RA422 the circuit indicated above for the excitation of R850 included in the control units located at the operator's station in the central office.

   By RA423 the relay R420 establishes an obvious circuit for the excitation of R430; this last relay attracts in turn to interrupt by RA438 the operating circuit of R420. When R430 attracts it establishes through RA438 'the blocking circuit described previously starting from the earth in RA492 and prepares the other blocking circuit described previously which starts from the earth in RA482. Therefore R430 is kept excited and R420 de-energized. The relay R830 by attracting establishes a circuit for the ignition of the signal lamp 890, in order to indicate to the operator that the conditions which exist require his attention.

   The attendant, by operating the key 810 to connect her set 800 to the control junction 443, receives the busy tone through the control junction and is thus warned that all the secondary office link circuits are busy. It can then ensure, as described below, of the communications using the various link circuits, in order to determine whether the link circuits are. precisely-busy at the moment, or if they have been permanently busy because a subscriber failed to send inrush current at the end of the call.



   It should be noted that when the attendant places the answer key 810 in its working position, the circuits indicated previously for the excitation of R450, R460, R470 are
811 established by the springs 814, 815 / and 812. After the attraction of these relays R480 and R490 are successively attracted '. The R490 relay by attracting prepares by RA491 another point of the circuit for the excitation of R270 this circuit being kept open by RA452.

  <Desc / Clms Page number 50>

 



   In order to establish the desired connections to ensure the various communications which are the cause that all the connection circuits are occupied, the attendant first activates the answer key in its normal position, in order to interrupt the calls. Operating circuits for R450, R460 and R470, these relays releasing to cause the release of R480 and R490. As soon as R450 releases and before R490 falls back a circuit is established by RA452 for the excitation of R40, R50 and R270. Since under the assumed conditions, the common control equipment shown in FIGS. 4,6 and 7 is not operationally associated with any of the link circuits, the attraction of R40 and R50 which takes place has no effect.

   The circuit shown above for excitation of R270 starts from earth at RA441 through RA452, RA491, C208 and through the winding of R270 to negative. The relay R270 by attracting establishes by RA273 a blocking circuit for itself this circuit starting from the ground in RA202. By RA274 this relay interrupts the blocking circuit of R280 including its lower winding, and by RA275 it interrupts a point of the circuit for the excitation of the upper winding of R280. Consequently R280 releases in order to interrupt by RA281 a point of the initial circuit by which R270 was energized, and to stop by RA283 the application of the busy tone current to the control junction leading to the attendant set, as well as to interrupt by RA284 a point of the circuit by which R420 was initially excited.

   Shortly after the de-energization of R280, relay R480 releases to interrupt the other blocking circuit shown above for R430. Relay R430 immediately releases to open by RA438 a point of these two blocking circuits so that it cannot re-attract when R490 releases shortly after. With relay R430 released, circuits are prepared by armature paddles RA431 to RA454 inclusive.

  <Desc / Clms Page number 51>

 to control the relays forming part of the supervision units shown in fig. 7. The operator can then proceed to check the conditions in which one or all of the link circuits are found, as described below.



  It should be noted that R270 is kept energized by the blocking circuit starting from the earth at RA202 for a time such that the occupancy conditions of all the link circuits are terminated in order to cause the release of R200. It will be seen that immediately after the release of R200, the relay R270 releases and the common part of the starting circuit of the various link circuits is established again by RA201.



   In the event that two calls are made simultaneously on two different lines, the relay 210 is energized by the circuits from the line relays associated with each of the calling lines, and remains attracted until a seeker link circuit. connector is assigned to each of the two calling lines. Obviously, however, the same link circuit cannot be assigned to both lines at the same time. With the arrangement shown the line belonging to the group having the smallest number will have priority as regards the designation of the link circuit.

   Therefore if one of the lines is part of the group N 2 of lines corresponding to relay R140 and the other is part of the group N 6 of lines, corresponding to the sixth group selection relay, the line indicated first will be the first to which will be assigned a link circuit. If, on the other hand, the two calling lines are part of the same group, the line with the lower number will be the first to be assigned to a trunk circuit.



  For example if the two calling lines are part of group n 2 N 4, one corresponding to the relay of units and the other corresponding to the relay of units? 6, the one corresponding to number 2 will be the first to be assigned to a free link circuit.

  <Desc / Clms Page number 52>

 



  When establishing this communication it should be noted that the line which is first assigned to a link circuit is also the first to enter the common control equipment through which the desired communication is terminated. account established. Consequently, as soon as the calling line is seized and after the attraction of the R390 changeover relay, the R430 relay attracts in order to interrupt by RA439 'a point of the common part of the starting circuits through which the group selection relays and The units of all link circuits are energized.

   Since R430 is kept attracted until the common control equipment is free again, none of the searchers in the various link circuits can come into play to search for the second of the two calling lines before this equipment is released.



   As noted above, arrangements are made whereby in the event that a link circuit is assigned to a calling line, and the seeker does not find this line, a second link circuit is also assigned to it. signed and if the second link circuit does not find the line either, an alarm is sent to the operator of the central office to warn him that some of the components of the remote-controlled office are not in good working order.

   Consequently in the continuation of the operations which have just been described, where the link circuit represented is assigned to the calling line 911, as soon as R210 is attracted, circuits are established for the excitation of R220 and for switching on. the time device 210 ', the first of these circuits starting from the battery at the resistor 248 through RA247, RA258, RA213 and through the winding of R220 to earth, and the second of these circuits starting from earth in RA285 via RA276, C296 and RA216 to the start-up conductor C297

  <Desc / Clms Page number 53>

 of the device in time.

   The relay R220 by attracting short-circuited by RA224 the winding of R230, this circuit going from negative to the upper terminal of R230 through the winding of R230, RA217, RA224, RA213, RA238, and back to negative by RA247. By RA221 and RC223 the relay R220 prepares a point of the circuit for the excitation of R250 from an earth taken at the device at time 210 '. This timing device, which is started by applying earth to C297, can be of any standard construction and is connected and combined so as to transmit positive pulses to C294 and C295 at intervals of defined and spaced times,

   each of them somewhat exceeding the time interval necessary for two searchers actuated successively to find the calling line. Shortly after the attraction of R220, the time device 210 'connects a momentary earth to C294 in order to establish a circuit through RA221, RC223, RC235, RA234, RA255 for the excitation of R250. The relay R250 by attracting establishes by RA254 a blocking circuit for itself, this circuit starting from the ground at 0204 through RA201, RA212, RA242, RA254 and the winding of R250 towards the negative. By RA255 the R250 relay interrupts its initial operating circuit at one point and by RA251 it interrupts the circuit described below for the excitation of R260 at one point and prepares a point of the R290 excitation circuit.

   In the case where the calling line 911 is found by the searcher shown in fig, 1 and the common equipment shown in fig. 4, 6 and 7 are entered, the circuit for excitation of R210 is interrupted by RA113 of cut-off relay R110. Releasing relay R210 opens the operating circuits of R220, R250 and the time device 210 '. Consequently, the equipment shown in fig. 2 returns to its normal position.



  If, on the other hand, the researcher represented in FIG. 1

  <Desc / Clms Page number 54>

 cannot find the calling line 911, R210 remains energized and R430 which is part of the common control equipment is not energized.



  Also R250 remains excited. After the time interval sufficient for two successively operated searchers to find the calling line, a ground is momentarily connected to C295 of the device at time 210 'in order to establish the circuit passing through RA256, RC245 and RA244 for the excitation. of R240. The relay R240 by attracting establishes by RA243 and RA244 a blocking circuit for itself passing through RA201 and RA212 towards the earth in C204 and by RA247 interrupts at a point the short-circuit established on the winding of R23D. By RA242 relay R240 interrupts the blocking circuit of R250 and by RA251 it prepares a point of the circuit for excitation of R260.

   By RA246 the R240 relay opens at one point the other obvious operating circuit of R230 and by RA249 it prepares a new circuit for the excitation of R250.



   Releasing relay R250 when releasing again prepares by RA255 a point of its initial excitation circuit, it interrupts by RA254 another point of its blocking circuit, and it establishes by RA251 and RC252 a circuit for the excitation of R260. This last circuit starts from the earth in RA241 through RA251, RC252, RC264, RA263 and the winding of R260 towards the negative. The relay R260 by attracting establishes by RA262 and RA265 a blocking circuit for itself, this circuit leaving the earth in C204 through RA201, RA212, RA265, RA262, RA263 and the winding of R260 towards the negative .

   By PA261, relay R260 prepares a point of the circuit described below for the excitation of R290, this circuit being kept open by the reinforcement paddle RA251 at rest of R250.



   When the short circuit is removed from the winding of R230, this relay is energized in series with R220 and attracts to prepare by RA237 the other operating circuit described below.

  <Desc / Clms Page number 55>

 known for himself. By RA231 and RC233 the relay R230 connects C204 by means of C90 to the conductor corresponding to C78 in the third researcher-connector link circuit, or to the link circuit corresponding to the distributor relay of which the terminals 82 are part. Therefore this second assigned Home circuit comes into play to find the calling line.



   If the second assigned trunk circuit finds the calling line, R210 will release exactly as described above. When R210 releases it interrupts the operating circuits for the device in time 210 'and for R220, R230, R240 and R260 in order to stop the device in time and cause the listed relays to release. Consequently, the starting device shown in FIG. 2 has returned to its normal position.



   If the second assigned seeker does not find the calling line however, the time device 210 'continues to operate and a second positive pulse is applied to 0294 to cause the new attraction of R250 through a circuit starting from earth at 0294, via RA221, RC223, RA249, RA255 and the winding of R250 to negative. The relay R250 by attracting establishes by RA254 a blocking circuit for itself, this circuit leaving the ground at 0204 through RA201, RA212, RA265, RA254 and the winding of R250 towards the negative.

   By RA255 the relay R250 interrupts its initial excitation circuit and by RA251, it establishes the circuit prepared previously for the excitation of R290 ... This last circuit starts from the earth in RA241, through RA251, R0253, RA261, RA271 and the winding of R290 towards the negative. The relay R290 by attracting establishes by RA291, a circuit for the excitation of the upper winding of R280 this circuit starting from the ground in RA496 by the intermediary of RA439 ', C204, RA495, 0205, RA291,

  <Desc / Clms Page number 56>

 and the top winding of R280 to the negative. By RA282 the relay R280 by attracting establishes an obvious blocking circuit for itself by by RA281 it prepares a circuit described below for the excitation of R270.

   By RA285, relay R280 opens at one point the operating circuit for the time device 210 'in order to interrupt the operation of this device. By RA283 the R280 relay by drawing completes a circuit for the application of alarm tone to the control junction 443 leading to the operator station of the central office and by RA284 it completes a circuit for the excitation of R420 this circuit passing through C292, RA438, and the winding of R420 towards the negative.



  When R420 attracts it establishes by RA421 and RA422 the circuit previously described for the excitation of R830 forming part of the organs of the operator station of the central office. This last relay by attracting establishes the circuit indicated above for the lighting of the signal lamp 890, in order to warn the operator that the situation which exists at the moment requires his attention. The relay R420 by attracting also establishes by RA423 a circuit for the excitation of R430 and this last relay attracts after a certain time to interrupt by RA438 the operating circuit of R420. By RA438 'relay R430 establishes a blocking circuit for itself via the earth in RA492 and by RA439 it prepares another blocking circuit for itself starting from the earth in RA482.

   When the relay R430 attracts it interrupts by RA439 'a point of the common part of the blocking circuits for relays R240, R250 and R260 which causes the release of these relays and it interrupts the operating circuit of R290. Releasing relay R290 interrupts the initial operating circuit of R280 via RA291, but the latter relay is kept energized by its blocking circuit starting from earth in RA274.



  By RA246 relay R240 by releasing short-circuited by a

  <Desc / Clms Page number 57>

 circuit evident the winding of R220 and release -this last relay. The relay R230 is however attracted by the other operating circuit indicated above starting from the ground in RA246 through RA237, RA214 and the winding of R230 towards the negative.



   When relay R420 releases shortly after the attraction of
R430, it reconnects by RA421 and RA422 and their respective associated contacts RC425 and RC427, the conductors of the junction line
443 to line conductors terminating at repeater 454.



   The operator noticing that the signal lamp
890 is on and, by operating the answer key 810 in its working position to connect its 800 set to the 443 control junction, hears the alarm tone and is thus warned that the devices located in the remote control unit are not not in good working order. She can then arrange for a staff member to be sent to the remote office to locate the fault that effectively takes the components out of service and fixes it.



   It should be noted that the operator of the central office by activating the answer key 810 in its working position causes the successive attractions of the relays R450, R460, R470,
R480 and R490 exactly as described above. Then when the operator returns the key 810 to its normal position to release her station in order to be able to use it for other purposes, these relays release. Since R480 is de-energized and releases its armature paddles before R490, the two blocking circuits of R430 are momentarily open at the same time, and allow this last relay to release and restore by RA439t., The common part of the circuits. switch-on for the various researchers located at the remote-controlled office.

   Releasing relay R450 by releasing establishes through RA452 a circuit for excitation of R270, this circuit starting from earth in RA441 through the in-

  <Desc / Clms Page number 58>

 intermediate of RA452, RA491, C208, RA281 and the winding of R270 towards the negative. By being energized by the circuit indicated above, the relay R270 attracts to establish by RA272 a blocking circuit for itself starting from the earth in RA215. By means of its armature pallet RA276, relay R270 opens the circuit for starting the device at time 210 'at another point and by RA275 it opens the blocking circuit of R280 at one point. The pulling of the other reinforcing pallets which are part of relay R270 has no effect at this time.

   Shortly after the attraction of R270, the R280 relay releases to interrupt by RA284 a point of the initial circuit for the excitation of R420, and to interrupt by RA283 a point of the circuit for the application of the alarm tone current to the junction control leading to the central office. By means of its armature paddle RA285, this relay prepares a point of the circuit for starting the device at time 210 'and by means of RA281 it opens at a point the circuit by which R270 was initially energized.



   Since the line relay R100 is kept attracted by a blocking circuit starting from earth at RA113 and the cut-off relay R110 is not attracted during the series of operations described above to interrupt the operating circuit of R100, relay R210, which is part of the starting devices, is kept energized until the fault causing the switching devices to not work is found and repaired.

   In addition to the two relays indicated, relays R220, R230 and R270 are kept attracted by the circuits described previously until the fault is cleared -, When the fault is cleared the line relay R100 will come to release and from this In fact, it will interrupt the operating circuit of R210, the latter relay releasing in turn the armature paddles RA214, RA 215 to open the blocking circuits of R220, R230 and R270. Therefore the devices

  <Desc / Clms Page number 59>

 switch-on shown in fig. 2 have returned to their normal position and are ready for further use.



   As noted previously, the arrangement is such that if a fault occurs to a researcher proper, the components which have just been described are not actuated to send the alarm to the central office since a second control circuit. link is immediately assigned to locate the calling line. Therefore if we assume that the link circuit shown is turned on, but due to a fault in a / test circuits it cannot find the calling line 911, it is visible from the description that all the group and unit selection relays as shown in fig. 2, will be operated one after the other.



   When the last units relay, namely RIO, attracted it establishes and by RA14, / RC16 a circuit for the excitation of R20, this circuit leaving the earth in C74 and 075 by the intermediary of RA185,
RC186, RA194, R0195, RA14, RC16 and through the lower winding of R20 to negative. The R20 relay by attracting establishes a circuit indicated above for the energization of the distributor relay R30 and the latter relay in turn attracts to assign a second link circuit to the calling line
911. When R50 attracts it prepares by RA35 a blocking circuit for itself and opens by RA32 and RC33 the operating circuits of R160, RIO and R20 causing the release of these relays and the return of the link circuit shown in its normal position.

   The indicated blocking circuit is established as soon as R20 is released and goes from earth at C89 through RA35, C85, RC23, RA22, C86 and through the winding of R30 to negative. Therefore, relay R30 is kept attracted until start relay R210 is released to break through RA211 the circuit indicated above.



   Suppose the second assigned link circuit succeeds

  <Desc / Clms Page number 60>

 Upon finding the calling line, communication between that line and control trunk 443 is reestablished in exactly the manner previously described. While this second assigned link circuit is searching for the calling line 911, a positive pulse is applied by the device in time
210 'to 0294 to cause attraction of R250. Before the second positive pulse, as described above, however, is applied to C295, the searcher of the second assigned link circuit has sufficient time to search for the calling line.

   If the line is found, the cut-off relay R110 attracts and causes the successive releases of R100 and R210 exactly in the manner previously described. Releasing relay R210 by releasing its armature pallets RA211 and RA212 opens the blocking circuits of R30 and R250 at several points and causes these relays to release. By RA213 it interrupts the operating circuit of R220, releases this relay and by RA216 it interrupts the operating circuit of the device at time 210 'to stop its operation.



   By RA217, relay R210 opens at one point the circuit for energizing the two relays R220 and R230 in series in order to prevent these relays from being kept attracted. Releasing the distributor relay R30 again puts the components in the conditions to be able to enter the link circuit shown during the next call.



   If the assigned second finder-connector link circuit does not find the calling line, a third link circuit, if a third is free, is assigned for the calling line exactly as described and this successive designation of the caller circuits. connection continues until the starting devices shown in FIG. 2 have had sufficient time to be fully actuated to send the alarm to the operator at the central office. the

  <Desc / Clms Page number 61>

 The operations which take place next are indicated above but it is not necessary to repeat them.



   From the description of the preceding paragraph, it will be seen that a double security is provided to prevent defective devices from rendering any of the subscriber lines ineffective. Therefore if a calling line seizes a faulty trunk circuit, a second trunk circuit will be assigned almost immediately. If, on the other hand, some of the components are so defective that the cut-off relay associated with the calling line does not attract during the given time interval, the starting units of FIG. 2 start to function to send an alarm signal to the operator in the central office.



   Operation of supervisory bodies,
As was explained above, the supervisbn members shown in FIG. 7 are provided with the aim of enabling the operator of the central office to ascertain in a selective manner the conditions in which the various researcher-connector link circuits are found in order to determine whether these link circuits are to be found. this moment in.service or if they are seized permanently as a result of what a calling station or called has failed to operate its generator at the end of the conversation. This is usually done when receiving a busy tone at the attendant station indicating that all of the remote office's backhaul circuits are busy.

   As noted above when this situation arises the relay R830 is energized and attracts to ignite the signal lamp 890. At the same time the busy tone current is applied to the control junction 443 to signal to the operator when the answer key 810 is actuated in its working position. Then according to the description above this answer key will be momen-

  <Desc / Clms Page number 62>

 temporarily returned to idle when the busy tone is received to cause blocking of R270 which is part of the starting devices shown in FIG. 2. After this return to momentary rest of the key 810, this key is again placed in its working position to cause the excitation of the relays R450, R460, R470, R480 and R490 in the manner described previously.

   With the system under these conditions R430 is de-energized so that pulse circuits are prepared to cause the successive operation of the supervisory relays shown in fig. 7. The operator can then establish a communication between her set 800 and the established communication comprising any of the link circuits by forming a number fixed beforehand by the pulse generator 860.



  Consequently, assuming that the operator wishes to ascertain the conditions in which the researcher-connector link circuit shown is found, she can establish communication between her device and the line conductors of this link circuit by forming a single number consisting of a single pulse. At the beginning of the pulse of this figure, the relay R450 releases to establish by RA452 a circuit for the excitation of R40 and R50 and R600 in parallel, this circuit having been indicated in a place preceding this specification. When R600 attracts, it establishes by RA604 a circuit for the excitation of R640 forming part of the supervisory bodies shown in fig. 7.

   This circuit starts from the earth at RA497 via C374, RA705, RA715, RA726, RA736, C47, RA433, C368, RA604, C367, RA434, C48 and through the winding of R740 to the negative. The R740 relay by attracting establishes by its RA744 armature paddle a blocking circuit for itself which starts from the earth at C374, and prepares by RA745 a circuit for the excitation of the supervision relay R730 corresponding to the second circuit. researcher-connector link, this circuit being kept open

  <Desc / Clms Page number 63>

 by resting reinforcement pallets RA601 and RA600. By its RA741 frame pallet,

     the relay R740 by attracting connects the line conductor C463 forming part of the common equipment
4 all the connection circuits, to the line conductor 0117 forming part of the connection circuit represented this connection circuit starting from 0473 through RA621, 0466, RA741, 0791, to 0117. Similarly the line conductor C464 making part of the common equipment is connected to the line conductor 0118 of the link circuit shown, the path of this link circuit being via RA624,
C465, RA742, and 0792.

   By its RA743 armature pallet, the relay
R740 prepares a circuit for energizing the slow release R350 relay shown in fig. 3, this circuit being kept open by RA649 '.



   At the end of the first pulse emitted by the operator station when the relays R40 and R50 release in the manner described previously, R600 and R610 also release. Note that since R50 releases RA57 before the armature vanes of R600 drop, the circuit for energizing the second R730 supervision relay is not established. Consequently, the first supervision relay R740 is kept attracted by its blocking circuit as indicated above. With the system under these conditions, i.e. with the line conductors 0117 and 0118 connected respectively to 0463 and C464 an obvious conversation circuit is established between the operator station and the communication established through the intermediary. of the researcher-connector link circuit shown.

   If by checking this last communication, the attendant is sure that the link circuit is busy at this time, she can cause the disconnection of her device from this link circuit by activating the answer key 810 to return it to its position.

  <Desc / Clms Page number 64>

 normal in order to cause the successive release of R450, R460, R470, R480 and R490. Relay R490 by releasing RA497 interrupts the blocking circuit of R740 previously described and causes the release of this last relay. Consequently, the equipment returns to its normal position and the operator can proceed to check the conditions of the second link circuit forming part of the units placed at the remote-controlled office.



   If, on the other hand, the attendant, by checking this communication makes sure that in fact it is not being used, she can proceed to the operation to release the communication by placing the bell key 870 in its working position, in order to cause the attraction of R440, the release of R470, and the attraction of the ringing current relay R640, all in the manner previously described. It will be recalled that, if the link circuit shown is maintained in working conditions, the relays R310 and R330 are activated simultaneously with certain group selection, group and unit switching relays forming part of the finder in fig. l and the connector of fig. 5.

   When however the bell relay R640 is energized it establishes by RA649 'a circuit for the excitation of R350, this circuit passing from the earth to RA649' by the intermediary of C375, RA743, C793, and through the winding of R350 towards the negative.



  * The relay R350 by attracting RA351 interrupts the blocking circuit of R330 which causes the release of this last relay.



  When RA333 is released the blocking circuit, previously indicated for group switching relays which are would attract part of the connector shown in fig. 5 and is interrupted so as to cause the release of this relay. By releasing the relay R330 by RA334, it interrupts the blocking circuit for R310 and for the group selection, group switching and unit selection relays that are part of the finder shown in fig. 1.



  When R310 releases it interrupts nar RA311 a point of the circuit

  <Desc / Clms Page number 65>

 initial for the excitation of R330 and by RA317 the blocking circuit for the selection relays of groups and units which are attracted and which form part of the connector shown in fig. 5. The release of RA334 also opens the blocking circuit of R20 causing the release of this relay and interrupts by RA21 the blocking circuit of the distributor relay.
R30 attracted. Consequently, this last relay releases to mark the researcher-connector link circuit shown as being free and to prepare this link circuit to be seized by the next calling line.



   After the link circuit has been released in the manner described above, the operator can put the common control equipment in the conditions allowing her to check the communication which takes place by means of the second link circuit. finder-connector by the same process consisting in returning the key 880 and the answer key-810 respectively to their normal position in order to cause the release of R440, R450, R480, R490 and of the bell relay R640. When R640 releases RA649 'for R350, the operating circuit shown' above / is interrupted and 'this relay releases.

   During this sequence of operations the blocking circuit of R740 is interrupted when releasing RA497 in exactly the manner described above.



   The way each of the other link circuits is checked is quite similar to that described above and differs only in the operation of the pulse receiving relays R600 and R610 to cause the pulse. attraction of that of the supervisory rests that we want from R700 to R740, which are part of the supervisory bodies shown in fig. 7. Which of these supervision relays is energized is determined by the pulses constituting the number sent by the attendant set. If this figure includes two pulses for example, relay R730 will attract

  <Desc / Clms Page number 66>

 if the figure includes three pulses R720 will attract; etc.



  It is understood that the pulse receiving relays R600 and R610 continue the series of operations described above; i.e. R600 attracts at the start of each odd pulse, R610 attracts at the end of each odd pulse, R600 and releases at the start of each even pulse, / R610 releases at the end of each even pulse Thus, if the attendant wishes to check the conditions in which the second researcher-connector link circuit is located, she can do so by forming a figure comprising two pulses.

   At the start of the second pulse of this figure when R600 releases RA601, a circuit is established for the excitation of R730, this circuit starting from the earth in RA57 via C469, RA601, RC602, C467, RA431, C45, RA745 and through the winding of RA730 to the negative. The relay R730 by attracting, establishes by RA755 a blocking circuit for itself starting from the earth in C338, it interrupts by RA756 the blocking circuit for the first supervision relay R740. Using its RA731 and RA732 armature pallets, the R730 relay establishes a connection between the operator's station and the line conductors of the second link circuit.

   By means of its RA7S7 armature pallet, the R730 relay prepares a circuit for the excitation of the third R720 supervision relay in the event that the digit emitted includes three pulses instead of two. Relay R740 immediately releases when R730 is attracted to then interrupt by RA744 its own blocking circuit and by RA745 a point of the excitation circuit of R730. Using its RA741 and RA742 armature pallets, it disconnects the line conductors of the first connection circuit shown in fig. 1, 5 and 5 of the operator's station, and by its RA743 armature pallet, it opens at one point the circuit indicated above for the excitation of R350.



   In the event that the digit transmitted includes three pulses

  <Desc / Clms Page number 67>

 instead of two, R600 will re-attract at the start of the third pulse to establish, by RA601 and R0603 a circuit for the energization of the third supervision relay R720 corresponding to the third researcher-connector link circuit forming part of the office. remote control. The indicated circuit starts from the earth in RA57 via 0469, RA601, R0603,
C468, RA432, C46, RA737. And through the winding of R720 to the negative.

   The R720 relay by attracting establishes a blocking circuit for itself, it interrupts the guard circuit of the previous supervisory relay R730, it prepares a circuit for the energization of the next relay R710, and it connects the post of operator 800 to the line conductors forming part of the third seeker-connector link circuit. From the foregoing description it will be seen that the operator can successively verify each of the researcher-connector link circuits forming part of the remote-controlled office by successively sending the corresponding digits to these link circuits.

   It is well assumed that the operations which take place during the transmission of digits having more than three pulses will appear clearly from the above description and that therefore it is not necessary to make a description thereof,
Communications between two extensions connected to the same shared line.



   As noted previously, communications between two sets connected to the same shared line can be established with or without the assistance of the operator of the central office. Obviously if all the stations connected to a given line contain the call units connected to the conductors of the associated line, any subscriber having a station connected to this line can call any other subscriber by operating the hand generator of his station to send on the ringing current line according to the call code of the requested subscriber.

   If, on the other hand, the calling subscriber does not know the station's call code

  <Desc / Clms Page number 68>

 that he wishes to call, or if the call bodies contained in the various stations connected to the line are connected between a line conductor and the earth, the call cannot be established without the operator's help. from the central office. In each case, the application of the inrush current to a calling line terminating at the remote controlled office has the effect of seizing the researcher-connector link circuit, this circuit being put into operation to prepare a communication with the operator's station at the central office and to notify the operator of this office, naturally assuming that a free researcher-connector link circuit is available and that the equipment common to all the link circuits is not available. not in use.

   If the call is made by operating the hand generator of the calling station in order to directly call the requested subscriber, the operator of the central office will ensure that this is indeed the case by operating the answer key 810 in its working position to establish a communication, as described above, between the set 800 and the calling station connected to the calling line.



  The operator can then cause the release of the researcher-connector link circuit entered in the manner described more particularly below.



   If, on the other hand, the help of the operator at the central office is necessary to establish a communication with the called set, the caller can send the necessary information to the operator at the central office when the latter answers the call. and ensure that communication is established. It follows that the attendant will instruct the caller to hang up for a moment and proceed to call the called subscriber connected to the calling line. This last operation occurs by the fact that it activates the bell key which is suitable either 870 or 880 in its working position, which has the effect of transmitting inrush current

  <Desc / Clms Page number 69>

 in return on the calling line to cause the excitation of the call unit contained in the station of the called subscriber.



  In the present case where no disk operation is performed by the operator of the central office, the two relays R660 and R670 are not energized. Also when one of the two ringing relays R630 and R640 is energized and attracts, a circuit is established for the energization of R320 or of the relay which corresponds to it in the seized seeker-connector link circuit.

   Suppose that the link circuit shown is the one interested in communication, the circuit shown above will start from the earth in RA495 through 0485, RA661, RC663, C613, one or the other of the paddles. of reinforcement RA639 and RA649, 0356, RA395, and the winding of R320 towards the negative. ' The relay R320 by attracting connects through its armature paddles RA321 and RA325 and their respective associated contacts RC323 and RC327, the line conductors C117 and 6118 of the connecting circuit to the respective line conductors C354 and 0355, in order to directly apply the current -calling to the calling line;

   this inrush current being applied to line conductors 0354 and 0355 by the reinforcement paddles RA641 and RA646 or by the armature paddles RA631 and RA635 depending on the R630 or R640 bell relay which has been energized. This ringing current is obviously also applied to line conductors C343 and 0344 terminating at the connector shown in FIG. 5, but since these latter conductors are not connected to a subscriber line, the assignment of ringing current to them has no effect.

   Obviously each time one of the bell keys 870 and 880 is returned to its normal position to cause the release of the call relays R630 and R640, the operating circuit for R320 is interrupted so that these relays reroutent to re-establish communication between the line of the calling subscriber and the operator's set.



   Suppose the call is answered and the requested communication is established between the calling subscribers and!

  <Desc / Clms Page number 70>

 called or if the attendant's help in establishing the call is not necessary, the attendant can release the searcher-connector link circuit in service by returning the answer key 810 to its normal position, thereby interrupting the operating circuits of relays R450, R460, R470, R480 and R490 in exactly the manner described previously, During the duration of this series of operations and when R480 releases shortly before the release from R490 a circuit is established by RA485 for the excitation of R340 forming part of the researcher-connector link circuit in service.

   This circuit starts from the earth at RA483 through RA494, C486, RA694, RC696, C358, RA597, C343 and through the winding of R340 to the negative. The R340 relay by attracting establishes by RA342 an obvious circuit for the energization of the relay R350 with release delay. By means of its armature pallet RA341 the relay R340 establishes a multiple blocking circuit for the relay R390 which is at this moment attracted.

   The relay R350 by attracting interrupts by RA351 the initial blocking circuit for R390 and shortly after when R390 releases, to interrupt the operating circuit of R340, the operating circuit which remains for R390 is interrupted by RA341. When R390 releases, it causes the link circuit to be released by opening in RA590 ′ a point of the blocking circuit of R310. When R310 releases, the relays which are attracted and which are part of the finder in fig. 1 are de-energized and release. Consequently, the researcher-connector link circuit and the common control equipment return to their normal position and the components are ready for a new use.



   Although the operation of the system has been described with particular reference to the post of the operator of the control office, as shown in FIG. 8, it is understood that the organs can also be controlled by

  <Desc / Clms Page number 71>

 the local control station 43 shown in FIG. 4 plans.



  The components forming part of this control station are identified with those shown in FIG. 8 and the operating method is the same as that which has just been precisely described. In order to be able to associate the components of this station with the line switching equipment shown, a control switch is part of the station in order to be able to establish a circuit for the excitation of R400 With this relay attracted, the control junction 443 is disconnected from the common equipment shown in fig. 4 and this equipment is connected so that it can be controlled by the organs forming part of the local control station.



   It is also understood that a trunk trunk two can be provided for the interconnection of / offices 900 and 910 the same as line 907 shown in fig. 9 whose long distance trunk is used for calls requiring a line between the two offices to be able to be routed.



   Although what has been described is now considered to be the preferred embodiment of the invention, it is understood that various modifications can be made thereto.


    

Claims (1)

EMI72.1 R E V E-N D 1 0 A T I 0 N S. 1. A telephone system comprising a remotely controlled office in which all communications are established under the control of an operator in another office, a system in which a calling subscriber is automatically connected with the operator by a trunk. control and one of the relay type free finder-connector link circuits, the operation of the connector being controlled by a pair of combined pulse receiving relays so that they act together so that a relay attracts at the start of each odd pulse and releases at the start of each even pulse and thereby causes the successive operation of a first series of relays during a train of pulses and the successive operation of a second series of relays during another train of pulses. 2. A telephone system as claimed in claim 1 wherein operation of the finder is inhibited if the control trunk is busy at the time the call is made. 3. A telephone system as claimed in claim 1 wherein the operation of a connector at the operator position is provided to apply ringing current to a called line of the local office. A telephone system as claimed in claim 1 or 3 whereby / releasing the answer key to the operator position after the establishment of communication between the calling and called lines, the coma: un organs are released without interrupting communication between the calling and called lines. 5. A telephone system as claimed in claim 1 wherein if the pager associated with the first free line fails to establish connection with a calling line <Desc / Clms Page number 73> after a determined time a second link circuit is designated and its finder starts to search for the calling line. 6. A telephone system as claimed in claim 5 wherein if the second searcher fails to find the calling line after a determined time, a signaling device is actuated at the operator station. 7. A telephone system as claimed in any one of the preceding claims, in which a distinctive signal is given to the operator position when all of the backhaul circuits become busy. 8. A telephone system as claimed in claim 7 wherein by transmitting adequate pulses from the operator position the control junction is in the condition to be connected to any of the communications established by the control circuits. binding. 9. A telephone system as claimed in claim 8 - wherein when the operator has established communication with a busy link circuit it can cause the forced release of the local call. 10. A telephone system as claimed in claim 1 wherein in the event that communication is established between stations connected to the same shared line, the link circuit through which the link was established to the operator is released when the communication is established. 11. A telephone system as claimed in any one of the preceding claims in which the switching members of the local office are designed in such a way that they can be controlled by an emergency station placed in the local office. 12. A telephone system as described herein and shown on the attached plans.