BE347524A - - Google Patents

Description

       

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  Telephone system
The present invention relates to telephone systems in general, but it relates more particularly to automatic telephone systems in which local and toll communications are established by means of an automatic switching mechanism controlled by the calling subscriber, in a local communication, and controlled by the toll operator, in a toll communication.



   The object of the present invention is to provide a novel switching mechanism to supplement toll and local communications, a mechanism by which when the toll operator extends a toll communication to a local subscriber, he is informed that the desired line is busy or free and, if it was busy, it is informed of what it is in a

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 Local communication or in a toll communication, and by means of which if the desired local subscriber is busy in a local communication with another subscriber, the operator can end the conversation and complete the toll communication, and then detach the unwanted subscriber from the connection.



   Large telephone systems are sometimes divided into
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 different zones and giving them the kind of operation described above, generally known as "preferral service", it may be desirable to classify calls from one zone to another with toll calls. , calls from one zone to another must not be interrupted
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 by an operator at penge.

   New and improved automatic switches have been established in accordance with this need which constitutes a particular feature of the present invention; in other words, the toll operator can complete toll communications to a subscriber even if he can
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 be busy in a call with another subscriber in the same zone, but not if the desired subscriber is busy in a toll call or is busy in a call with another subscriber in a different zone.
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  One of the features of the present invention is a combined toll and local connector, which is intended to be corJnalldé to operate as a toll connector through a temporarily abnormal channel applied to the. junction line;
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 a semblabi? This condition can advantageously be applied as a result of the operation of the pulse emitter which establishes the co ... m.m.l.ication. A differential relay having its windings in the Junction circuit and intended to be energized when a lihne s2olabill is connected to earth can be used for this purpose.



   Another characteristic of the invention relates to a first selector which, depending on its mode of operation, gives a different marking on its test conductor to indicate the
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 kind of co51rarLicatiOrL in which he is occupied.



  The different characteristics of the invention will be

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 described in detail in the specification which follows, with the aid of the accompanying drawing included Figs. 1, 2 and 3 which show at. By means of the usual circuit diagrams, the main apparatus of a telephone system incorporating the principles of the present invention.



   Four to be better understood. the drawings should be placed with fig. 2 to the right of FIG. 1 and the. fig. 3 above figs. 1 and 2, with the corresponding lines extending from each other. Only two offices of the telephone system chosen to illustrate the invention have been indicated, namely office X and office Y, with the main toll switchboard / at office X.11 goes without saying, of course, that the size of the system. is unimportant.



   Fig. 1 of the drawings shows a subscriber station A, the line of which terminates, at point X, in the individual line switch LS, and is accessible for a group of connectors by means of the conductors 2 ', 3 and 4'. The LS line switch is of the well known rotary type having no normal position and moving in one direction only, the apparatus advancing on the return stroke of the jerky feed magnet associated with it.

   The LS line switch, as well as other similar line switches, have access to trunk lines ending in first selector switches, one of which is shown and includes conductors 22, 23 and 24 ending in the first switch. selector S '.



   From a mechanical point of view, the selector S is of the well-known vertical and rotary type. The arrangement of the circuits of the selector Si is similar to that well known to those skilled in the art, but with the variant of an additional relay, the function of which is particular to the present invention and will be described in detail hereinafter. The selector S ', along with other similar selectors, has access from certain floors to trunk lines extending to the other offices of the system, the trunk line which comprises the conductors 65, 66 and 67 which extends to the office Y by means of the repeater R, fig. 3, being one

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 of these junction lines.

   In a particular contact floor
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 fixed prer; .iers selectors, we have access to a group of second local selectors, the junction line comprising the conductors 62, 63 and 64 which terminate in the second selector S2 being a? of these junction lines.



   From a mechanical point of view and also for the arrangement
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 #S circuits, the selector S2 can be identical to the selector represented and described in the reference indicated above. It was therefore indicated only by ur> dotted rectangle.



  In the rows of fixed contacts of the second selectors, there is access to the aifferent groups of the third selector, a particular group of the third selector being accessible to the Nazis on the first floor.



   The dotted rectangle designed by S3. indicates a third selectors of a particular group. It can also
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 be identical to the selector shown and described in the reference mentioned plus [auto In the rows of fixed contacts of cY.L8. than a group of third selectors, we have access to a certain number of groups of connectors, a particular group being accessible
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 in each floor.



   In fig. 2, there is shown a connector which is a member of a group of connectors accessible in a particular stage of the fixed contacts of the group of third local selectors containing the selector S3. From a mechanical point of view, the connector C is identical to the skies of the well known vertical and rotary type. The circuits of connector C have, however, been established in accordance with the particular needs of the present invention and will be described in detail below. In the rows ae fixed contacts of connector.0, there is access to a group of subscriber lines, the line of station A 'as well as the line or station A belonging to this group.

   The LS2 inaiviaual line switch
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 pDste A 'may be identical to the line switch L8' shown in fig 1 and it has therefore only been represented by a rectangle.

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   It has been assumed in this particular system that the main toll switchboard is located at office X. In the lower left corner of FIG. 1 the take-off end of an operator's cord. The key K 'is the listening key to connect the operator's headset (not shown) to the cord, and the key K is a combined dial and bell key.



  The operator call device D is provided with special out of normal springs which are closed when the dial is in a normal position and which are open when the dial is brought to an out of normal position. A number of trunk lines ending in jacks, such as the trunk line comprising conductors 122 and 124 ending in jack J, are provided at the operator station. Each of these trunk lines extends to a toll selector switch such as the toll selector S. The toll selector S may be identical to the selector shown and described in the reference mentioned above.

   The rows of fixed contacts of these toll selectors are connected in multiple with the rows of fixed contacts of the first selectors such as the selector S ', so that the toll selectors and the first regular selectors have common access to the second regular selectors and also at the. trunk line extending to other offices in the system. there is shown in FIG. 3 the repeater R of the junction line comprising the conductors 365 and 357 extending to the office Y and accessible in the rows of fixed contacts of the first selector by means of the conductors 65, 66 and 67.

   the arrangement of the circuits of the repeater R is generally identical to that known previously, except that the repeater is equipped to fulfill an additional function particular to the present invention, which will be described in detail below.



   At office Y, the trunk line comprising connectors 365 and 367 terminates in a second input selector IS.

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  In the rows of fixed contacts of the IS selector, in conjunction with the second local selectors of this Office, a certain number of groups of third selectors are accessed, the third selector 84 being a member of a particular group. The input selector IS, air¯si as the third selector S4 can also be identical to the selector shown and described in the reference mentioned above. In the rows of fixed contacts of each group of third selectors, there is access to a number of groups of connectors, connector 03 being a member of a particular group. Connector C3 is identical to connector C shown in detail in fig. 2.

   In the rows of fixed contacts of connector C3, there is access to a group of subscriber lines, the line of station B being one of these. Line switch LS3 from the line to station B may be identical to the line switch LS 'shown in fig. 1.



   It should also be noted that junction lines extend towards office X from the other offices of the system.
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 teme, including office Y, and terminate at office X in second input selectors whose rows of fixed contacts are connected in multiple to the rows of fixed contacts of second local selectors such as selector S2. Their simplicity, however, these connecting lines have not been shown.



   After this general description of the object of the invention and of the apparatus embodying the principles of the invention, the invention will be fully understood and appreciated from the more detailed description given below. Following this
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 invention, when a subscriber completes a call to another subscriber in the same zone, that is to say from the same office, the line of the calling subscriber and the line of. the called subscriber are both marked Locally busy ".

   This is to connect the potentie. earth, through the winding of a relay to the first selector, to test contact 1, and the calling line,

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 and connecting the earth potential, by means of the coil of a connector relay, to the test contact of the called line. If, on the contrary, a line is connected by the toll operator, the line is marked "occupied at toll".



  In this case the direct earth potential is connected to the test contact of this line. It has also been assumed that communications from one zone to another should be classified as toll communications, with regard to "preferred service". therefore, when a subscriber from one zone completes a call to another subscriber from a different zone, i.e. from another office, the calling subscriber's line and the the called subscriber are also marked "toll busy". In order to describe how a subscriber line is marked busy in a different way depending on the type of communication in which it is understood,

     it will firstly be assumed that the subscriber of station A wishes to establish a communication with the subscriber of station A 'which is served by the same automatic office, and the detailed operations carried out for the establishment of this communication will be described. to establish this communication, the subscriber of set A first withdraws his receiver and then dial the number given by the directory for the subscriber of set A '. Removing the receiver at station A bridges line conductors 2 and 4, which closes a circuit for line relay 6 of line switch LS. Line relay 6 operates and places the earth potential on the normal private conductor 3 at contact 14,

   and at the same time it prepares an excitation circuit for the switching relay 5. At contact 15, the line relay closes a jerky advance circuit for the magnet 7, provided that the junction line on which the switch are placed at this time is occupied, in which case the earth potential is on the contacts encountered by the test wiper 18. If it is assumed that this junction line and also one or more adjacent junction lines

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 are occupied, the jerky advancing magnet 7 operates like a shaker to advance the switch wipers 17 to 19 inclusive, looking for a free junction line.

   During this operation, the switching relay 5 is prevented from operating because of the earth potential on both ends of its winding.



   When a free junction line is reached, and it will be assumed that it is the junction line comprising conductors 22 to 24 inclusive, its free state being indicated by the absence of earth potential on the contact encountered. by the test walker 18, the jerky feed magnet 7 stops working and the relay 5, no longer short-circuited, is energized in series with the magnet 7.

   In operation, relay 5 prepares a restraining circuit for itself at contact 11 and further. to mark the calling line busy, it disconnects the line conductors of the line relay 6 and the earth, at contacts 8 and 13 respectively, and it extends the connection, to contacts 9 and 12, by means of wipers 17 and 19, by the junction line conductors 22 and 24, the contacts 44 and 50 and by the top and bottom windings of the line relay 25, respectively to the battery and the earth. Line relay 25 operates and closes a circuit for operation relay 26 to contact 34.

   The release relay operates and grounds. The release conductor 23 at contact 36, it prepares a circuit to operate the vertical magnet 31 at contact 37, and closes a circuit for the lower winding of the service relay 30 at preferably, at contact 39. Relay 30 operates and closes points in the conversation circuit at contact 51 and at contact 52, and closes a normally open point in the retained circuit which will be described below, at contact 51.



   The above operations have all occurred as a result of the removal of the receiver at the calling station. After removing his receiver, the subscriber calling from station A dials the directory number for the called subscriber. Under

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 the effect of the formation of the first digit on the dial, the line relay 25 de-energizes and re-energizes a corresponding number of times and at each de-energization it closes a circuit for the vertical magnet 31 in series with the series relay 27 .



  Magnet 31 operates and advances switch wipers 57 to 59 inclusive to face the corresponding stage of fixed contacts. Relay 27 operates and closes contacts 40, and after the switch sliders have been lifted from their normal position, the out-of-normal springs 5 are closed, after which a circuit for the jerky feed relay 28 is made by means of contacts 40 and 36 towards ivy. The relay 28 energizes and prepares a circuit for the rotating magnet 32 at the contact 42, and it closes a latch circuit for itself at the contact 43, this circuit enclosing the contacts 55 and 48.



   When the pulses of the first digit cease, the series relay 27 de-energizes and allows the contacts 41 to close. This closes a circuit for the rotating magnet 32, causing that magnet to operate and rotate the switch wipers until they engage with the first set of stationary contacts in the selected stage. Towards the end of its travel, the rotating magnet: tif 32 opens the retaining circuit of the relay 28 at the switch contacts 55. The relay 28 then de-energizes and opens the circuit of the rotary lover at the contact 42 and opens in besides another point of its contact locking circuit 43.



   If the junction line ending in the first series of fixed contacts is occupied, the earth potential is present on the test contact reassembled by the wiper 58 and another circuit is established for the jerky advancement relay 28, of the earth located on this fixed contact, by a circuit containing the wiper 58, the contact 51 ', by the upper winding of the relay 30, the contact 46, the switch contacts 55, the springs out of normal 54, by the winding of relay 28, towards the battery. The relay 28 energizes again and closes the circuit of the rotating magnet 32 at the contact 42.

   Magnet 32 works again and turns the switch trotters

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   until it engages with the next series with fixed contacts. This
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 operation with rotary 1'-1malt 32 and the advancement relay 28 continues until the Trotters have been put in position on a series Q. 3 contacts tprmiI1 :: ... ¯¯t a free junction line, the free state of this being indicated by the aasence of the earth potential on the C0lJ.'Câ.Ct encountered by the frctor 5s. one can suppose that the 2nd: ,, 1st cip free junction accessible in this floor at this moment is the one comprising the
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 conductors 62, 63 and 64.

   When the trotters ae switch are brought, by rotation, e .. taken with the series ae cOIl: fixed tacts terminating this junction line, an energizing circuit for the --- switching relay 29 becomes effective, this circuit s' andenant from earth through contact 36, through the winding of relay 29, contacts 55, springs 54, through lrJule ...? nt of relay 28, to the battery. Relay 28 is iiisuff4-sa-ment energized by this circuit to operate.

   Relay 29 operates on the contrary and to contact 47 it connects the release conductor.
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 tion 63, through the intermediary of the upper winding or relay 30, to the release conductor 23, and extends the connection by means of co-tacts z-5 and 49, das contacts 51 and 52, of wipers 57 and 59, of the coils 62 and 64, by the selector line relay windings, S2. The line relay to selector S2 is energized in the usual way and causes the release relay of this selector to be energized and connected.
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 earth potential at the release conductor b3 and to prepare the selector S2, for operation.
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 While operating, the rpiai-9 21 also opens the line relay circuit 25 to contacts 4 and 50.

   Line relay 25 then de-energizes and opens the circuit of relay ae
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 lioeration 26. The lioeration relay de-energizes and removes the direct earth tiel from the conductor? release 23 at contact 36, and opens the circuit of the lower winding of relay 30 at contact 39. Relay 30 does not de-energize, however.
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 not seen is maii-tenant excited by means of its winding

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 upper in series with relays 29 and 28 and with relay 5 of the LS line switch. The line of station A is now marked locally occupied ", that is to say the earth potential is supplied to the normal conductor 3 by means of the earth connected to the release conductor 23 through the intermediary of the upper relay winding 30.

   Note that the top winding of relay 30 should have comparatively low resistance, so that the line switch ammants are able to operate in series with it when testing for free trunk lines.



   Under the effect of the formation, on the dial, of the second cniffBe of the called number, the selector S2 operates to advance its wipers to opposite the corresponding stage of fixed contacts and it then turns the wiper locks to taken with the first series of contacts terminates a free junction line and extends the connection up to it.



   It will be assumed that the chosen junction line is that comprising the conductors 72, 73 and 74 ending in the third selector 83. Under the effect of the formation, on the dial, of the third digit of the called number, the selector S3 operates to make advance its wipers as far as the corresponding level of fixed contacts, then to rotate its sliders until it engages with the first series of contacts ending a free junction line and it extends the connection up to this one.



   It will be assumed that the junction line chosen is that comprising the conductors 82 to 84 inclusive, terminating in the connector C, fig. 2. When the. connection is extended to connector C, a circuit is closed for line relay 203, this circuit comprising the top and bottom windings of differential relay 202. As the name suggests, relay 202 is differential winding and does not work at this time. Line relay 203 energizes and closes a circuit for release relay 204 at contact 226.

   Relay 204

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 is excited and puts an earth potential on the release conductor 83 at contact 228, it places the earth potential on the retaining conductor 298 at contact 229, it prepares the pulse circuit for contact 230, by opening at the same time time a point of the regulator release circuit of the magnet 216, and at contact 232 it closes a circuit for the preferred release relay 206. This latter circuit extends from the battery through resistor 297, contact 232, the contact 280, by the winding of the relay 206, towards the earth. Relay 206 operates and opens a point of the referred release circuit from magnet 216 to contact 238.



   Connector 0 is then in position to be actuated under the effect of the formation, on the dial, of the fourth and fifth digits of the called number. Under the effect of the rormation of the fourth digit on the dial, the line relay 203 de-energizes and re-energizes a corresponding nomore times, and at each de-energization it closes the circuit not the vertical magnet 215 in series with the relay in series 205. The magnet. 215 operates and advances the switch wipers to opposite the stage of fixed contacts corresponding to the shape of the dial.

   The series relay 205, which is slow to release, operates in series with the magnet 215 and maintains its armature attracted throughout the vertical movement. Note that the circuit of the first pulse to the vertical magnet 215 closes the normally firm non-normal springs 236, while the remaining pulse circuit contains the springs 235 and the contact 233 of the series relay 205, the springs Out of normal having been moved from the plum tree vertical advance: the committing rubbers.

   Ala, end of the vertical movement, the relay @ 205 de-energizes and transfers the pulse circuit to the rotating magnet 217, at the location of the contact 234.



   Under the effect of the format One, on the dial, of the last digit of the called number, the line relay 203 is again de-energized and re-energizes a corresponding nomore of times. Cn @ that once the armature is removed, a circuit is closed for

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 for the rotating magnet 217, this circuit extending from the earth through the contact 227, the contact 230, the springs out of normal
235, contact 234, contact 267, contact 283, the winding of the rotating magnet 217 towards the battery. A parallel circuit also extends through the winding of relay 213 to the battery. Relay 213 energizes and places a bypass around contact 267 at contact 273, and prepares the test circuit for busy test relay 212 on contact.
271.

   Rotary magnet 217 operates and rotates switch wipers 285, 286, and 287 into engagement with the fixed contacts associated with the called line, these contacts being assumed to be those designated 288, 289, and 290. Relay 213 being slow acting, keeps its frame attracted throughout the rotary movement.



   The further operation of connector C now depends on whether the line to station A 'is busy or free. It will first be assumed that the line is busy at this moment and as the communication which is attempted has been started by a local subscriber of the same zone, it is of no importance, as regards the establishment of the present communication, whether the line is busy in another local call or in a toll call, an earth potential being present on test contact 289 in one case while earth is brought through the winding of a relay, in the other case, as will be described below.

   In both cases, a circuit is closed by the assay contact 289, the wiper 286, the contact 277 ', the contact 271, by 14 winding of the test relay 212, the cuntact 278, towards the battery. Test relay 212 operates and prepares a latching IC for itself at contact 264 which is closed when relay 213 drops out and allows contact 272 to close; relay 213 drops out a little after the pulses have ceased. Test relay 212 also closes a circuit for the distinctive test relay 212 'at contact 265, it closes a point of the acoustic busy signal circuit on contact

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 266 ez 0avrE, 'ali point in the Pulse circuit at contacts 267.

   If the called line is busy in a toll cOKKUnnaation, the? relay 212 'is not activated, but if the called line is busy in a local call, relay 212'
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 works in parallel with a relay of the connector used
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 in acre coo-un4Lcation and corresponding to relay 206, as will be described below, if relay Zî2 'is actuated, l? local conductor of acoustic occupancy signal, coming from 1 .. r.crirae local (not shown) of .occuatiort signal is connected to .-. oy contact 256 ', contacts 266, contact 246 and contact 225, to the lower conversation conductor 8lJ .. '- L'aboI.L.'lé:

  LU station A thus entered either the acoustic sirerial ciloce7ipti-in to pay, or the acoustic signal a-local occupancy, which indicates to him that the aeszrée communication can not be completed at this time. It is obviously unnecessary that
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 the regular barker knows the distinction between the two genders
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 c- acoustic occupancy signals. When it is izil.'r ':. from this a-ue the called line is inaccessible the subscriber of station A hangs up his receiver.

   This operation initiates the binding of the actuated coL-ztators, as will be described in the
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 after.
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 to come back now, in the f ")! l.ctiOnL? rI19l1.t du = nte.jr ç, to the point where the continuation of the f'orcticrxeremt ae this one depended on the occupied or free state of the line a .pelee, we will assume that the line from station A 'is lil) re In these, no circuit is closed, for relay 212, .is after removing the armature at relay 213, a waxing is complete for the communication relay 21 this circuit can be followed by the earth by the contact 228, the contact 263, by II enrO ': the lower element of the relay 21y, the contact 270, the contact z771,! a wiper 286, the fixed contact 289, the conductor 295. to the Dattery via the winding of the irt relay: uption of bridge (nost represented) to the line collector LS2.

   LS2 line switch bridge i.nt2rrp-t-lon relay is working -: la. usual way for eco: ¯nect the normal earth and date cor.ill6Xlons of 1. called line. Relay of

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 switching 214 is energized, and at contacts 277 it closes a locking circuit for itself to earth conductor 298, and at contacts 279 the initial circuit by which relay 206 has energized is opened and this relay is connected to the trotter: test 286 and is now energized by means of the battery supplied by the winding of the interrupting relay of the line switch LS2.

   It should be noted at this point that the earth potential is now connected, to the test contact 289 of the. called line, via the winding of relay 206. The called line is thus marked "locally busy". It is now inaccessible to other local subscribers, but can still be connected by a toll operator, as will be described below. Further results of operation of relay 214 are as follows: At contact 278, the connection of the battery to the lower terminal of the coil of relay 212 is broken. The circuit by which relay 214 was initially actuated is open at contacts 277 '. The rotating magnet 217 is disconnected from the pulse circuit at contact 283.

   At contact 276, the usual circuit or ringing back sound is closed by means of capacitor 274. At contacts 275 and 284, points are closed in the talk circuit and in the signal circuit to make the signal work at the house. called subscriber, the signal circuit extending from conductor 299, to which the generator earthed G and the direct earth are intermittently connected, then by contact 261, contact 284, wiper 287, fixed contact 290, the conductor 296, the bell of station A ', the conductor 294-, the fixed contact 288, the wiper 285, the contact 275, the contact 257, by the lower winding of the bell interrupt relay 211 towards the battery.

   The ringing of set A 'is then activated until the subscriber of the set answers the call or until the call is abandoned by the calling subscriber.



   When the no one called from station A 'picks up their receiver to answer the call, the station's ringer is disconnected and

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 a direct current bridge is placed between line conductors 296 and 29, which completes a direct current circuit for the lower winding of relay 211. Relay 211 energizes and closes a latch circuit for itself at the bottom. contact 259 to the grounded conductor 298, and opening ei-i. the contact 261 and the contacts 257, it opens the ringing circuit while by closing the contact 258 and the contact 260, it completes the conversation connection.

   After relay 211 has operated, a circuit is also closed for the rear bridge relay 201, at contacts 239 ', and at contact 244, this circuit enclosing the right windings of the naut and at the bottom of repeater R2 and the subscriber loop. Relay 201 is functioning and in the usual way reversing current in the line? caller and it also connects the earth to the restraining conductor 298, at the location of the contact 218, and it opens a point of the regular release circuit at the contact 223 (so that the release of the connector is commanded by the last person who hangs up its receiver).

   The reversal of the current in the calling line is of no use in this kind of communication, in the particular system shown, raais could be employed to operate the meter of the calling subscriber if there is one. .



   The calling subscriber and the called subscriber can now converse. At the end of the interview, the officers replace their receivers on the hook-switches, respect read. Hanging up the receiver at station A 'opens the bridge between line conductors 296 and 294-, which opens the circuit to rear bridge relay 201. Relay 201 de-energizes and removes a ground connection from conductor 298 to contact 218, it closes a point in the regular release circuit at contact 223, and by opening contacts 219 and 222 and allowing contacts 220 and 221 to close, it reverses the current on the calling line to bring it back to the normal.



   Hanging up the receiver at the calling station opens the bridge between the conductors of the calling line, which opens

 <Desc / Clms Page number 17>

 line relay circuit 203. Line relay 203 de-energizes and opens the circuit of release relay 204 at contact 226. Relay 204 de-energizes and disconnects the ground potential of release conductor 83 at contact 228; it disconnects the earth potential of the retaining conductor 298 at the contact 229. and at the contacts 231, it closes the regular circuit for releasing the a, releasing imant 216, this circuit extending from the earth through the contact 227, contact 231, contact 223, springs out of normal 237, the coil of the release magnet 216, towards the battery.

   The release magnet 216 operates and releases the switch wipers that hold back to normal. Removing the earth from the restraining conductor 298 opens the restraining circuit for the relay 211 and the relay 214. whereupon the relays return their armatures to normal.



     Removing it from the earth of the release conductor 83 also removes the earth of the release conductors 73 and 63 connected in series to the conductor 83, and removed, through the upper winding of the relay 30, the earth of the conductor. release 23 and the normal private driver 3. It follows that the retaining circuits of the switching relays of the selectors S2 and S3, the switching relay 29 and the service relay 30 preferably of the selector SI, and the relay 5 of the LS line switch are respectively open. The selectors S1, S2 and S3 are then returned to normal in the usual manner and the line switch LS is normal with its wipers remaining on the contacts used last.



   In the above explanation, it has been shown how connector C works to establish local communication to a subscriber and place an earth potential through the winding of relay 206- on the test contact of the line. called, which marks the line to set A 'as "locally busy". We will now show how the connector C can be used by the toll operator to establish a toll communication to a called subscriber and. owing to the fact that the communication is a toll communication, how

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 connector C functions to mark the called line as "toll occupied", by plating a direct earth potential on the test contact of the called line.

   For this purpose, it will be assumed that the toll operator has answered an incoming toll call and has been advised that this call is intended for the subscriber of station A '.



   To complete the call, the toll operator inserts the call card: the cord used to answer the incoming call, for example card P of cord 0, into the jack of a? free junction line, such as the J jack; he then folds the key K to the left in the maneuvering position of the guard and forms the desired number on the dial.



   The insertion of the plug P in the jack J closes a circuit for the sleeve relay 103 and also places a bridge between the conductors 122 and 124, this bridge enclosing the polarized relay
102. The relay 103 energizes and closes the circuit of the lamp L to the current 105. The placement of the bridge between the conductors 122 and
124 closed a circuit for the selector S line relay which operates to prepare the selector S for operation in the usual manner. The current flowing through the winding at the bias relay 102 at this time is flowing in a direction such that it does not cause the relay 102 to operate.



   Placing key K in the dial maneuvering position substitutes dial D for polarized relay 102. Because of the contacts out of normal 10, the earth potential is connected to conductor 122, which causes a short circuit. a winding of the selector S line relay, but this has no particular effect at this time.



   Under the effect of the formation, on the dial, of the first digit of the number called, the selector S operates to lift its trotters up to the corresponding level of fixed contacts and it then turns its rubbers in search of a free junction line in this floor. When the D-dial is moved away from the normal position, the short circuit on this winding is opened, which again maintains the relay of

 <Desc / Clms Page number 19>

 selector line S operates by means of its two windings.



  It will again be assumed that the trunk line comprising conductors 62 to 64, which is accessible to both selector S and selector S in the same stage, is the one chosen; it will also be assumed that the connection is prolonged, under the effect of. formation, on the dial, of the second and third digits of the number called, by means of selectors S2 and S3 up to connector C, fig. 2.



   When the connection is extended to connector C, a circuit is closed again for line relay 203, but in this case as the earth potential is present at the midpoint of the bridge between the conversation conductors, at contacts 10 of the Dial D, the lower winding of the differential relay 202 and the lower winding of the line relay 203 are both shorted and for this reason the differential relay 202 is actuated. In operation, relay 202 closes a circuit for the operating relay 210 and closes a latch circuit for itself at contact 253. At contact 252, relay 210 prepares a circuit for the lower winding of relay 214, and at contact 252, relay 210 prepares a circuit for the lower winding of relay 214, and at contact 252. contact 254 Prepares a circuit to mark contact 289 "toll occupied" when relay 214 is operating.



  The line relay 203, operates as before and closes the circuit of the release relay 204 to the comtact 226. The release relay 204 energizes again and places the earth potanteil on the release conductor 83 at contact 228, it places This the earth potential on the restraining conductor 298 at contact 229, it prepared the pulse circuit at contact 230, and it closes the circuit of the release relay preferably 206 at contact 232. As a result of operation at relay 202, a circuit is closed by the change relay 210 on contact
224.

   This relay operates and closes a latch circuit for itself at contact 253, to the grounded conductor
298 and he prepares other circuits which will be described in the following.

 <Desc / Clms Page number 20>

   under the effect of the formation of the fourth digit of the desired number on the dial, the vertical magnet
215 of the connector functions to position the rubbers in front of the stage of fixed contacts corresponding to the number formed on the dial, in a manner identical to that described in the previous communication.

   Likewise, under the effect of the formation, on the dial, at the last digit of the called number, rotary 217 is actuated to turn the switch rotors until they engage with contacts 288, 289 and 290 associated with the line. station A ', the relay 213 being actuated in parallel with the rotating magnet 217. After having formed the fourth digit, the operator returns the key K to normal and listens to the sound which is returned from the connector C. The circuit Cula: ion of the current in the two windings of relay 202 is returned to normal and the relay de-energizes which closes a circuit for the busy sound at contact 223.



   At this point, further operation at connector C again depends on the busy or free state of the called line and in this case also, if the line is busy, on whether it is engaged in a local call. or in a toll communication. In order to show how the connector operates under the most normal conditions, and completes the communication to a called subscriber and then marks the called line as toll busy ", it will first be assumed that the line to station A is free at this time.

   In this case, as in the previous case when the called line was free, no circuit is closed for relay 212, and when relay 213 drops a little after the end of the second set of pulses, relay 214 operates. by means of a circuit such as that indicated in the previous communication.



  While operating, relay 214 makes the same circuit changes as when it was used for establishing local communication, and in addition to that, as relay 210 is now actuated, it places the direct potential to earth.

 <Desc / Clms Page number 21>

 on test contact 289 by means of contact 281, contact 254, contact 279, and test wiper 286. This also causes relay 206 to short-circuit, so that this relay drops out. Relay 206 has no function in this type of connection. The operator hears the ringing sound back and quits the call by returning the key K 'to normal.

   The other operations relating to call establishment and call release are the same as those described for the previous call.



   It should be noted here that when the connector G is taken into service by the toll operator to establish a common toll cation, it places a direct earth potential on the test contact of the called line, instead of placing earth via the winding of relay 206, as in the case where it has been used in a local communication. This substitution is made by relay 210, the operation of which is controlled by differential relay 208 which at its turn is actuated when the earth potential is applied to one of the line conductors by contacts of the dial of the operator, with a view to short-circuiting the lower winding of the relay 202.



   Following one of the main objects of the present invention when the operator tries to establish a toll communication, he is able to complete the communication even if the desired subscriber is busy, provided he is busy in a local call, but not if it is busy in a toll call. to describe the sequence of operations of the connector when it is used by a toll operator who tries to establish a toll communication, it will now be assumed that the line called A 'is busy in a local communication when the connector C is brought into engagement by rotation with the fixed contacts 288, 289 and 290 of the line of station A ', and, it will first be assumed that the local communication has been extended to station A' and therefore has not left of this

 <Desc / Clms Page number 22>

 station A '.

   If it is then assumed that a toll call has been extended up to connector C and that connector C has been actuated to the point where further operation depends on whether the called line is busy or free, the test relay 212 is again actuated by means of the test wiper 286 and performs the circuit changes described above. Likewise, the relay 212 ′ operates, its circuit extending through the wiper 286 in multiple with the relay of the connector used in the local communication, corresponding to the relay 206 of the connector C.

   As a result of the operation of the two relays 212 'and 212, the local busy sound conductor connected to the local busy sound machine (not shown) is connected to the lower trunk conductor 84' of the connector. C. The operator then hears the desired local busy sound, which informs him that the subscriber is busy in a local call.



   After receiving this information, the operator puts the key K in the ringing position for a while, and this operation causes alternating current from the generator G 'to be started in the line conductors.



   This causes the operation of the alternating current relay 209 of the connector c, a relay whose circuit contains the contact 251 (the relay 210 being actuated) and the contact 262 (the relay 212 being actuated). The relay 209 closes by operating a circuit. for the control relay 208 The relay 208 operates and at contact 248 it closes a circuit for the upper winding of the bell interrupting relay 211 and closes an initial energizing circuit for the two-phase relay 207 at the contact 247.

   Bell interrupt relay 211 energizes and closes a locking wax for itself at contact 259 and completes points in the conversation circuit at contact 258 and at contact 260 by simultaneously opening the bell circuit. ordinary at contact 257 and at contact 261. The relay has two bases 207 operates until its first advance and closes the

 <Desc / Clms Page number 23>

 contact 2424 without further functioning at this time because its lower winding is currently shorted.



   After a while the key K is brought back to normal and the generator G 'is disconnected from the line conductors. Relay 209 de-energizes and opens the circuit of relay 208. Relay 208 de-energizes a little later and at contact 247 it removes the short-circuit of the lower winding of relay 207. Relay 207 then energizes to its second advancement and establishes an auxiliary conversation circuit by closing contacts 239 and 245; it disconnects the rear bridge relay 201 from the line conductors at contacts 239 'and 244, and it disconnects relay 212' of the test wiper at contact 243.

   The operator is now ready to listen to the conversation and informs the desired subscriber that there is a toll call waiting for him, and he also warns the unwanted subscriber of what is required. 'he will. be detached from communication.



   The operator then puts the key k momentarily in the smile position a second time. It should be noted at this point that the earth connected to the upper conversation conductor on contact. 106 of the. key K provides a return circuit for the alternating current of the generator G 'and that in addition it completes a retaining circuit for the upper winding to the relay 203 in order to maintain the communication and it also makes that the currents in the windings of differential relay 202 do not balance, causing relay 202 to operate.

   While operating, at this time, relay 202 opens the auxiliary talk circuit to contacts 225, which prevents the application of alternating current shakes from passing through the called line and causing unpleasant noise in the receiver of the called station that the called subscriber holds to his ear. The second application of the alternating current causes the operation of the alternating current relay 209 in the connector C, which again closes the circuit of the relay 208 to the contact 249.



  Relay 208 operates again and since contact 240 is now open and contact 241 is closed, it places the

 <Desc / Clms Page number 24>

 earth potential by means of the contact 277 'and the wiper 286 on the test contact 289 connected in multiple with the corresponding test contact among the contacts fixed to the connector
 EMI24.1
 e ::. plo.:,é in local communication.



   It will be recalled that in a local communication, the relay corresponding to the relay 206 is energized by means of the test wiper. When the earth potential is therefore
 EMI24.2
 placed on the test c¯xtact 289 connected to the test contact of the row this fixed contacts of the connector used in the local communication, the relay corresponding to the relay 206 in the other connector is de-energized. As a result, the preference release circuit is closed for the release magnet in the other connector, which circuit contains contacts located in the other connector and corresponding to contact 281, contact 255 (the relay of the another connector corresponding to relay 210 not being actuated),

   contact 238 (the relay of the acre connector corresponding to relay 206 having precisely been energized), the springs out of normal 237, by the
 EMI24.3
 the release magnet of the other connector, towards the battery. As a result, the connector release magnet
 EMI24.4
 switch is actuated and the cOWiliutator sliders are returned to normal. In this way, the unwanted subscriber is detached from the line of the desired subscriber in the present toll call.



   Finding himself disconnected, the unwanted subscriber then hangs up his receiver, if he has not done so, when he has been informed.
 EMI24.5
 of the arrival of communication z, toll for the other subscriber. As a result, the other switches associated with the local communication are released. If the unwanted subscriber had hung up his receiver as soon as the toll operator informed the two participants that a toll call expected, all switches except the connector used in. the local COWllillnicbtion has, ara., 5jtt been released at this time.

   In both cases, the connector used in the local communication is released in the manner which has just been described.

 <Desc / Clms Page number 25>

 
After the operator returns the K key the second time, the AC relay 209 of connector C de-energizes again, which in turn causes relay 208 to de-energize.

   Relay 208, by de-energizing, removes the earth potential from test contact 289, allowing relay 214 to operate by means of a circuit extending from grounded conductor 298, through contact. 252, contact 269, lower coil of relay 214, contact 270, contact 277 ', wiper 286, fixed contact 289, conductor 295, coil of line switch bridge interrupt relay LS2 to the battery. Relay 214 then operates by performing the circuit changes described above, with earth potential again being applied to wiper 286 by means of contacts 281, 254, and 279.

   The circuit of the two phase relay 207 is also open at contact 282 and as a result this relay de-energizes and again connects the rear bridge relay 201 to the conversation conductors.



  As the two relays 214 and 211 are now actuated, a circuit is closed for the rear bridge relay 201, which circuit encloses the bridge at the station called A '. This relay operates and as before it applies earth to concluder 298, opens a point in the regular release circuit and reverses the direction of the current in the calling line. This causes the operator's 0 cord circuit relay 102 to operate and open the circuits of the lamp L. Usually, when the lamp L goes out, this indicates to the toll operator that the called subscriber has answered. , but in this case, the called subscriber was obviously already on the phone before the connection was established.



   The bait person at the remote station can now converse with the person called at station A '. At the end of the conversation, the two subscribers hang up their receivers. Hooking up the receiver to station A 'opens the rear bridge relay circuit 20. This relay, by de-energizing, again reverses the direction of current in the

 <Desc / Clms Page number 26>

 
 EMI26.1
 line condu.ct5U.rs for l? return to normal, which causes the polarized relay 102 of the coral line circuit to operate.
 EMI26.2
 teur, toll frees its frame. By closing the springs 104, the circuit of the lamp L is reestablished.

   The lighting of the lamp L at this moment indicates to the toll operator that the person at station A 'has hung up his receiver.



   The toll operator then removes the P string from the J jack, which opens the circuit of the sleeve relay 103 and the bridge between the trunk line conductors 122 and 124. The relay 103 de-energizes. The opening of the bridge between the conductors of
 EMI26.3
 junction line 122 and 12 initiates the release of the existing commu- nication containing the selectors S, S2, S3 and connector C in the manner previously described, the latch circuit of relay 210 being open when earth is removed from the conductor holdback 298.



   In the above case, if the subscriber of set A 'had been
 EMI26.4
 engages in a toll communication (or else in a communication classified among the COTIUh2 toll communication as will be described below) when the connector C has been brought into engagement with the fixed contacts associated with the line of station A ', relay 212 would have been activated, this? times from the direct earth on contact 289, but relay 212 'would not have been actuated; it follows that the toll operator
 EMI26.5
 would have received the toll occupancy ticket instead of the local aam aJcc4ipa- tion, which would have indicated to the operator that he cannot establish toll communication at this time.

   It should also be noted that even if the toll operator inadvertently tried
 EMI26.6
 v-rtpnc? d release an existing toll call = or a co nicattorl classified as a toll call, by means of separate operations of the key L. to the switch-on position, the other communication would not be undone for the obvious reason that the relay of the horn used in the
 EMI26.7
 co: .uric.tion e.g. constant and corresponding to relay 210 of tank 0 would be activated and that 1> earth / direct would already be present on the test contact.

 <Desc / Clms Page number 27>

 



   In the preceding paragraphs describing how a toll operator has the possibility of entering a local call, it has been assumed that the desired subscriber who was busy in a local call was the called participant in the. local communication, that is to say that the desired subscriber had been previously called by another calling local subscriber. A desired subscriber may however be busy in a local call in which he is the calling party, having started the local call. A toll operator can likewise enter into a similar communication and establish a toll communication with the desired subscriber, and detach the unwanted subscriber from the communication.

   The operations of the connector to fulfill this function are the same as those described in the previous case, but the application of direct earth to the test contact of the. desired line when the operator activates the key of the cord to put it in the connection position the second time, in this case activates the first selector used in the local communication to release the unwanted subscriber, instead act on the connector used in local communication.



   In order to describe how the first selector of such a communication is activated, it will be assumed that the toll operator wishes to extend a toll call to the line of station A which it is assumed to be engaged at this time. in a local communication by means of the line switch LS, the first selector S ', the second selector S2, the third selector S3 and the connector C. As will be recalled from the local communication previously described, the earth potential is now connected to the private normal conductor 3 via the upper coil of the relay 30.

   The toll operator establishes the toll call in the same way as described above and is informed that the desired subscriber of set A is busy in a local call, by the fact that '' he hears the sound of local occupation when the

 <Desc / Clms Page number 28>

 connection is established with this line, He then activates eo: e preceded the key of the. cord used, corresponding to the key K, to put it in the connection position, with a view to establishing a temporary conversation circuit with the desired subscriber and the other subscriber of the local call.



   After having informed the subscriber wishes that a toll call must be extended to his set and that the local communication will be interrupted, the operator momentarily activates the key a second time. This causes the connector used in toll communication to connect the direct earth potential to the test contact to which the normal private conductor 3 is connected. This causes the upper winding of the relay 30 of the first selector S 'to be short-circuited, so that this relay de-energizes.

   As a result of the de-energization of relay 30, the bridge between the junction conductors 62 and 64 is open at contacts 51 and 52, and the retaining circuit is cut off at contact 51 '. The selectors S2 and S3 are now obviously released and returned. to normal. The called subscriber of the local call, finding himself disconnected, replaces his receiver, if he has not already done so when he was informed of the toll call for the other subscriber, and the connector used in the local is also free. The line switch LS and the selector S 'on the contrary remain in the actuated state.



     As indicated in the preceding paragraphs, it may be desirable to classify calls from one zone to another in the same way as toll calls, so that a call going from a local subscriber to a zone to a local subscriber of a? other area cannot be defeated even by a toll operator.

   In order to obtain this result, provision has been made in the first selector for means which only take effect when a call to another zone is made, to cause the calling line to be marked "toll busy", and means have been provided in the output repeater associated with each line of

 <Desc / Clms Page number 29>

 junction between offices, to act on the connector used to complete the call, to put it in the same state as when it is used by a toll operator during the establishment of a toll call.



   To describe these operations in detail, it will be assumed that the subscriber of station A belonging to office X calls station B of office Y. To start the call, the subscriber of station A picks up his receiver and dials the number of the telephone. directory for door B. If the effect of removing the receiver from station A, the line switch LS is again put into action and chooses a free junction line accessible in its row of fixed contacts and then extends the connection to this trunk line. If it is assumed that the junction line comprising the conductors 22, 23 and 24 is the one chosen, the line relay 25 of the selector S 'operates again and at contact 34 it closes a circuit for the release relay 26 .

   Relay 26 operates and grounds release conductor 23 at c ntact 36, and it prepares the pulse circuit for contact 37, while at contact 39 it closes a circuit for the Lower winding of relay 30.



   Under the effect of the formation, on the dial, of the first number, the selector S ′ operates in the manner described above to raise its wipers to face the stage of fixed contacts corresponding to the number formed on the dial. The selector is provided with a series of tgge springs which are positioned in such a way that they are closed whenever the switch sliders are lifted up to any of the stages in which are accessible lines of junction going to an office in another area. The springs 56 and the springs 56 'are therefore currently closed.



  A circuit is now established, at springs 56, for the lower coil of relay 30, independent of contact 39 of release relay 26, and the upper coil of relay 30 is shorted to springs 56 '.

 <Desc / Clms Page number 30>

 



     After the selector S 'has raised its trotters to the floor corresponding to the first digit formed, it makes
 EMI30.1
 automatically turn its wipers until it engages with the pra = ¯LérP series of contacts terminating a junction line îiDe in the chosen stage, it will be assumed that the junction line comprising conductors 65, 66 and 67, extending through the repeater R, fig. 3, up to Y and ending, at this office, in the
 EMI30.2
 second input selector. IS, is the one that is cried. When the co-.unication is extended to repeater z a circuit is closed for line relay 326. Relay 326 operates
 EMI30.3
 and closed a circuit for the release relay 327 to contact 335.

   Relay 327 operates and sets the earth potential
 EMI30.4
 direct on the junction line from llnératlon 66 to contact 338, it prepares a circuit for the pulse bridge relay 328 to the
 EMI30.5
 contact 339 and: stop Uu bias circuit for relay 325 to contact 340. Relay 327 remains energized throughout. the
 EMI30.6
 This bending as follows from later descriptions, and as the upper winding of relay 30 is now shorted, direct earth potential is present on the private normal conductor 3 and is maintained there throughout the connection.

   The line to station A is thus marked occupied at toll Il, and therefore it is safe from any intrusion, including by the toll operator, as we have said.
 EMI30.7
 previous. At contact 337, the line relay 326 also closes, by octining, a bridge, which tests the impedance 31f6 and tE'nrO: ï..9i1ler.Lt upper of the polarized relay 325, between the output coridiac- tors of junction line 365 and 367.

   This operates the line relay and then the release relay to the second IS input selector, and prepares the IS input selector for operation.
 EMI30.8
 suas the effect of the foraticm, on the dial, of each of the remaining intoxicates of the called number, the line relay 326 is
 EMI30.9
 is excited and re-excited a corresponding number of times, in 07April; reads it on contact 337 'Un (equal number of times.

 <Desc / Clms Page number 31>

 Whenever relay 326 de-energizes, the circuit of relay 328 is closed at contact 336.

   Relay 328 supposedly energizes during each series of pulses and substitutes a short-circuit bridge for the bridge containing impedance 346 and the top winding of relay 325, separating contacts 341 and closing contacts 342 , which improves the transmission of impulses. In operation, relay 328 also closes the circuit of earth pulse relay 329, to contact 343. Relay 329 is thus energized also during each series of pulses. At the cessation of each series of pulses, the circuit of relay 328 is kept open and as a result this relay de-energizes.

   As a result, the normal bridge containing the impedance 346 and the upper coil of the relay 325 is again placed between the outgoing line conductors, as a result of the closing of the contact 341 and the opening of the contact 342. Another result is that the earth potential is momentarily applied to the upper output conductor 365 by the closing of contact 344 while the time relay 329, which is slow acting as indicated, maintains its armature attracted. after its circuit has been opened.



   In this manner, the remaining series of pulses are passed through trunk line conductors 365 and 367 to office Y switches, with conductor 365 being momentarily grounded at the end of each series. As a result, the second input selector IS operates and extends the communication to a third free selector in the ¯ wanted group, for example selector S4; the third selector S4 operates and extends the communication up to a free connector in the desired group, for example connector C3, and connector 03 is actuated and extends the communication to the called line. As regards the operation of the selectors IS and S4, momentary grounding of conductor 365 after each series of pulses is of no use.

   In connector 03, on the contrary, this application

 <Desc / Clms Page number 32>

 Momentary from earth to one conductor of the incoming trunk line causes imbalance of the differential relay which in connector 03 is similar to differential relay 202 at connector C so that this differential relay operates. While operating, this differential relay does, as we will remember-;

  - it will be from the description for connector C, that the relay which in connector 03 corresponds to relay 210 of connector C operates and locks so that when the connection is finally completed, the direct earth potential is connected to the contact test of the called line, in the same way as in a toll call. Note that the differential relay of connector C3 may or may not operate when the connector is taken in service first, depending on the amount of rotation that selector S4 has to perform to find the junction line to connector C3.

   If the differential relay is not actuated when connector C3 is taken in service, it is actuated by childhood grounding of conductor 365 at the end of the first series of pulses sent to connector C3.



   If the called line is busy, the calling subscriber hears a sound - Busy, either the local busy sound, or the toll sound, depending on the type of communication in which the called line is engaged, and no communication is 'is complete, but if the called line is free, the connection is complete and the direct earth is connected to the test contact of the called line, so that this line will be found occupied at toll during a test, when any other connection to this line is attempted.



  When calling from one zone to another, the rod springs specially provided in the first selector are therefore closed to provide an independent retaining circuit for the relay 30 and to short-circuit the upper winding. of this relay, so that the direct earth can be placed on the normal conductor pr @ vé to mark occupied at toll the

 <Desc / Clms Page number 33>

 calling line, and the special means enclosing the relay 329 in the repeater R operates to momentarily place the earth potential on one of the connecting conductors so as to cause the imbalance in.

   the differential relay of the connector used, so that this connector works the same as when used in toll communication and placed a direct earth potential on the test contact of the, line called to mark busy a toll called liana.



   Claims
1.6 A telephone system in which switches engaged in a local call are intended to be kept actuated by a potential sent back through a conductor which contains a relay of the first digital switch, the arrangement being such that if a toll call is made to the calling subscriber, this relay is intended to be switched on and to release the local call.



   2.- A telephone system in which a relay having a winding in the pulse circuit of a connector is intended to be actuated from a repeater when a call is extended from one office to another and when a momentary characteristic condition is established in this pulse circuit such that this relay is made capable of causing the connector to be made busy for toll calls.

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


    

Claims (1)

3.- A telephone system employing a switch connector intended for use in pay-as-you-go communications and also in local communications, in which the subscriber's calling device is enabled, when using pay or inter-office communications, to make circuit changes in the connector so that this connector is made capable of functioning as a pay connector. <Desc / Clms Page number 34> 4.- A telephone system divided into zones, data which EMI34.1 a communication between subscribers of the same zone is intended to be accessible for a pinge operator and to be carried out by this operator while a communication between none belonged to different zones, while being accessible EMI34.2 ega, 1z: -P # it for a toll operator, is arranged in such a way that this operator is unable to carry out the opening t, 1 co: uricaion between the two aDo - fied. 5.- A connector switch intended for use both in toll devices and in local cOil.1lmy ... ications, axns a telepnJniqne system, in which a relay atiiarx: tieï connected between the ae converS <.. tiOh conductors is intended to be operated when the co.:1L.lltateur is taken in service for toll or inter-office communication, and not to be operated when the switch is in use? for- local communication. 6.- A connector switch intended for use in the EMI34.3 both in toll calls and in local c0nillnúicatioús in a telephone system, in which a device connected to the trunk line and operating under the effect of EMI34.4 Temporarily abnormal starts in this line The junction is intended to cause circuit changes whereby the connector is made capable of functioning as a toll connector. 7.- A connector switch for use in toll communications or local communications in a telephone system, in which a relay operating under EMI34.5 the effect on a very characteristic current source through the convening conductors in the out EMI34.6 do you want one? connection with a called line engaged in a local cnication is intended to make, when de-energized, a conversation connection with this called aoonne. 8.- A connector switch for use in EMI34.7 telephone system, included two relays for co-ordinator <Desc / Clms Page number 35> the release of the switch, one intended to be controlled via the calling line, and the other intended to be actuated in series with the interrupt relay of a called line, in which when a call preferably is extended to this called line, the second relay is intended to be short-circuited and to release the connector switch. 9.- A first selector switch intended to be used for inter-office or local communications in a telephone system, in which the release arrangements are such as when this switch is engaged in a local call and a toll call is extended to the calling subscriber, the switches engaged in the local communication and other than the first selector are intended to be released. 10.- A first digital switch intended to extend communications to two classes of trunk lines, in which a relay which controls state-of-the-art communications by means of each class of trunk line is intended to be controlled independently of the trunk line sila communication contains a trunk line of one class, and has to be ordered under the dependent of the trunk line if the communication contains a trunk line of the other class. 11.- A first selector switch for use in a telephone system, comprising a relay controlling a contact in the conversation conductors, in which the relay is in turn intended to be controlled by means of the incoming test conductor of the switch . 12.- A first selector switch for use in telephone systems, in which the switch is intended to mark the line of a calling subscriber differently occupied, depending on the value of the initial series of pulses produced by the subscriber appellant. <Desc / Clms Page number 36> 13.- A repeater for communications between offices in telephone systems, intended to repeat current pulses, in which a momentary characteristic condition is intended to be produced in the junction line between offices after each series of pulse was repeated. EMI36.1 1. A connector collector according to claim 5, wherein the operation of the relay is intended to be produced by the operation of the pulse emitter for toll or inter-office calls only. 15.- It ,, switch connector according to claim 5 or 14-, wherein when the differential relay is actuated 4L! is intended to mark the called line "busy as in a toll call, while when the differential relay is not actuated the called line is marked as busy as in local calls." 16. A connector switch according to claim 7, wherein the local communication is intended to be disconnected upon. connection of this source a second time. EMI36.2 17.- A co.1It.utateur connector according to claim 7 or 16, wherein when the current source is applied to the conversation conductors the second time, the conversation connection between the connector and the called subscriber is intended to be cut off to prevent this current from flowing into the called party receiver as long as the current is connected to the conversation conductors. EMI36.3 18.- A connector cosimutator according to claim 7, 16 or 17, in which during the second disconnection of this source, the initial conversation circuit between the operator and the called subscriber is open and another conversation circuit is closed. . EMI36.4 19. A connector switch according to claim 7, wherein a two phase relay is intended to be actuated in its first phase when the current supply is connected. <Desc / Clms Page number 37> to the conversation conductors, and to be activated in its second phase when the current source is disconnected. 20.- A first selector switch according to claim 10, in which when the relay is controlled under the dependence of a trunk line it is intended to allow the extension of a toll communication up to the calling subscriber. as well as the release of switches subsequent to the first as a result of the de-energization of this relay, which is carried out because of this toll communication. 21. A first selector switch according to claim 12, wherein the calling bar line is marked differently depending on the position to which the switch is actuated. 22.- A telephone system in substance as described and shown in the accompanying drawings. 23.- A connector switch substantially as described and shown in the accompanying drawings. 24.- A first selector switch substantially as described and shown in the accompanying drawings. 25.- a repeater substantially as described and shown in the accompanying drawings.