BE438042A - - Google Patents

Description

       

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  Improvements to telephone devices.



   The present invention relates to improvements in telephone apparatuses which aim to provide simplified and more direct means of calling between the telephone set of a manager or an important official and the telephone sets of subordinates who are frequently called by the chief's post. It sometimes happens that a correspondent of a given extension may have the opportunity to call the telephone extensions of a particular group of other correspondents on a frequent basis and this is particularly the case for the manager. who relies on the phone to be

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 informed by his direct reports.

   In a similar case, the time required for the operation of a manual system or for the maneuvers required for the handling of a call disc in automatic systems may be considered inadmissible on the part of the calling station. In order to simplify the call maneuver, an improved direct call system is provided and is combined so that calls to a number of stations can be made by the special station either using a conventional call disc or by the practical means of selective call keys corresponding to each of the devices which are frequently called.



  For this purpose an automatic telephone system has been provided comprising an office to which the various lines of the system terminate. One of the lines ends at a chief or special post of the type mentioned above.



  Pulse responsive type automatic switchgear is provided in the office for establishing communications between lines leading to this office, the arrangement being such that the automatic switchgear can be controlled from the master station. or by the intermediary of one of the lines leading to this office, in order to establish communications between the master station and the lines. A special automatic switching unit is also provided in the office, giving only access to the group of subordinate lines to which calls are frequently made by the head station.

   This special automatic switching device is specific to the master station and can only be controlled from this station in order to establish a second communication between this station and a second of the lines leading to this office. This second communication

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 tion can be established in the absence of a communication of the first type as mentioned above, or can be established while a communication of this first type exists and without the latter being released. More specifically, it has been provided, at the head station, several call keys which individually correspond to the lines of the subordinates forming the group accessible by the automatic switching device mentioned above,

   and control units actuated due to the operation of one of the call keys to cause the routing of the communication by the special switching unit, from the head station to one of the determined subordinate lines. corresponding to the activated call key. With the aim of communicating by a communication of the first type, the usual transmitter and receiver are provided at the master station or special station, preferably combined in a hand-held microphone, the two elements of which are normally connected and arranged for be used in order to be able to converse by a communication of the first type.



  Auxiliary transmitter and receiver are also provided at the special station and are connected and normally arranged for use in a communication of the second type. A switching device is provided to effectively connect the auxiliary transmitter and receiver in order to be able to use them for one or the other of the two types of communication briefly described above. For convenience, a pair of relays is provided, these being under the control of hand-operated response and transfer switches, placed on the station which / operate selectively to connect the receiver and the transmitter. auxiliaries in order to use them for established communication

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 one or the other type.



   The arrangement is such that the two relays are actuated simultaneously to transfer the auxiliary transmitter and receiver of a communication from one. type to a communication of the other type. The response switch includes contacts for establishing the operating circuits of both relays, and the transfer switch includes contacts for interrupting the operating circuit of the transfer relay without de-energizing the other relay, thus ensuring a safe disposition. whereby the desired handoff of the auxiliary transmitter and receiver can be effected by selective operation of the answer and handoff switches.

   In one embodiment of the apparatus, a relay is provided which acts in response to the unhooking of the receiver from the apparatus in order to connect the receiver of the micro-telephone so that it is used instead of the auxiliary receiver in a communication of the second type, namely direct communication with a line.



   It is an object of the present invention to provide in a system having the characteristics described above an improved and extremely simple stationary arrangement in which one of the two groups of transmitter and receiver, one of which includes a standard type, can be selectively connected in an established communication and includes the extension.



   It is another object of the invention to provide, in a system having the characteristics described, in which two communication channels can be simultaneously established between the master station and two other lines of the system, an improved arrangement by which

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 the channel which is not in use can be effectively short-circuited to thereby prevent crosstalk between the two communication channels.



   The invention will be better understood by referring to the following description of a method of organization to which the attached plans relate, including figs, 1 to 6 when they are juxtaposed in the manner indicated in fig. 7, show a telephone system incorporating the various features of the invention.



   The apparatus shown in figs. 1 to 6, with the exception of the station shown in fig. 1 and the station 600 shown in FIG. 6, is enclosed in a private automatic exchange of the appropriate type making it possible to establish telephone links between the offices of a large factory organization. Coming to the exchange and ending in the automatic switchgear indicated schematically at 320, it has several lines of automatic stations, three of which are represented at 321, 322 and 325. Line 323 ends at a special station or chief station and includes two line switches 327 and 528 and a control conductor 329.

   The automatic switchgear 320 comprises the automatic switches controlled by the subscriber and of the usual type for establishing communications between the telephone lines of the system, and the extension 600, the apparatuses of the stations A, B, being supposed to be from the system. type generally used.



   With the apparatuses thus described, communications can be established between the master station and one of the other stations associated with the lines terminating at the automatic switchgear 320 in the usual manner. Thus, for ordinary calls made by the master station, the organ or call disc forming part @

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 of apparatus 600 is operated in the usual manner to cause transmission of pulse trains to automatic switchgear 320.



  An auxiliary disc 350 may also be provided, if desired, to allow calls to be made under certain special operating conditions described in detail below. All incoming calls intended for the master station are routed through the ordinary automatic switching apparatus 320 provided in the central office and line 323 to the extension 600, the bell 641 contained in this apparatus being activated in response to of the inrush current sent on line 323 after the line is seized by one of the connectors forming part of the automatic switching equipment 320.



   In order to route calls from the master station directly to some of the frequently called subordinate lines and terminate at the automatic switchgear 320 without the need to actuate the disk, an automatic switching device has been provided. comprising a rotary switch 310 to the banks of which the lines of subordinates end. The switch is for convenience a standard 25 point rotary switch and includes 4 sets of bank contacts 311 to 314, the brushes 315 to 318 associated with them, and a motor electromagnet 319 for two advancing the brushes. .

   The contacts of the / sets 313 and 314 are the ends of the line conductors of the various subordinate lines and the contacts of the set 312 of are the ends of the line / subordinate control conductors while the contacts of the fourth set 311 @

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 are the ends of the conductors extending via the cable 295 the contact springs of a group of code relays shown in FIG. 2.



  These conductors individually correspond to the subordinate lines and are included in marking circuits by which the movement of switch 310 is controlled. Since the control apparatus shown is only combined to provide direct call capabilities for 20 subordinate lines, only twenty contacts from each of the banks are used, the other contacts being free. Switch 310 is controlled by the group of code relays shown in FIG. 2 and by the control member 415 shown in FIGS. 4 and 5. The coded relays represented are combined to be energized by combinations of three and in response to the selection maneuver by any of the keys shown in fig. 1.

   Each of these keys 100 to 109 is of the type with two stable positions and each position corresponds to a particular line of subordinates, The key contact springs are wired in the manner indicated / such that by the operation of one which - Sorry, three of the code relays attract to establish one of the marking circuits mentioned above to the contact bank 311 in order to identify the called line requested by the caller.



   An auxiliary transmitter and receiver are provided at the master station and include a microphone 135 and a loudspeaker 136, connected in series with a signal booster including a lamp 620. The auxiliary transmitter and receiver are interconnected with a signal amplifier. anti-loeal impedance system indicated generally at 630 to form a station circuit

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 anti-local having terminals 643 and 644 combined to be connected by means of a junction line comprising conductors 575 and 576 to a winding of a translator 500 or by means of a second junction line comprising the conductors 296 and 297 to a winding of a second translator 300.

   The impedance system 630 comprises a transformer 610 including five windings 611 to 615 the latter being coupled to the primary winding 616 of an input transformer 618 having its secondary winding 617 connected to the non-adjustable terminals of a resistor. 619 voltage reduction. The adjustable terminals of resistor 619 are coupled to the control grid 621 of the catode 622 of the lamp 620. The lamp 620 which is of the well known pentode type and which contains a directly heated catode is provided with an output circuit. comprising primary winding 628 of an output transformer 627 connected in series with an anode voltage source between the anode 623 and the catode 622.

   In order to negatively bias the control gate 621 with respect to the catode 622 a resistor 625 has been provided which is included both in the output circuit of the lamp and in the circuit supplying energy to the catode 622. The anode current source is bypassed with a capacitor 626 to pass the frequency currents of the signals. Secondary winding 629 of transformer 627 is connected to speaker 136 through volume control potentiometer 141.

   This potentiometer includes an adjustable contact blade 145 combined so that adjusting the blade varies the magnitude of the signal voltage applied to speaker 136 without substantially changing the signal voltage.

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 value of the resistor connected in shunt with the secondary winding 629 of the transformer so that the adjustment of the signal level at the input can be done without changing the output impedance and therefore without introducing distortion in reproduction by loudspeaker 136,
The anti-local impedance system 630 contains in addition to the transformer 610 a pair of line-balancer circuits which are combined to be selectively introduced into the system and which are made effective individually,

   under different operating conditions, to balance the circuit so that during operation of the microphone 135, no significant part of the developed voltage of the signal acts on the input circuit of the lamp 620. One of the balancing systems comprises an adjustable inductor 631 connected in series with an adjustable resistor 632, and the other balancing system includes an adjustable inductor 6311 connected in series with an adjustable resistor 632 '. Microphone 135 is part of a substantially closed transmission circuit comprising a low impedance capacitor 139 and primary winding 138 of a coupling transformer 137.

   This transformer is provided with a secondary winding 140, one terminal of which is connected by the conductor 146 to the junction point of the windings 611 and 612 and the other terminal of which is connected by the conductor 147 to the junction point of the windings 613 and 614 The two junction points therefore form the terminals of the anti-local circuit, which is effectively formed when the auxiliary components of the station are connected for use in an established communication.

   By proportioning the impedance values

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 of the elements respectively included in the two balancing circuits, the currents passing through the windings 613 and 614 are made approximately equal in amplitude and are opposed for all the frequencies of the audible range whatever the translator 300 or 500 introduced in the established communication . Likewise, when the impedances of the elements included in the balancing circuits are suitably proportioned, the currents of the signals passing respectively through the two windings 611 and 612 are made substantially equal in amplitude and opposite for all the frequencies of the audible range.



  As a result, during operation of the microphone 135, no substantial signal energy is fed into the input circuit of the lamp 620 and therefore local action is suppressed. Note that the lamp 620 is of the type requiring only a low anode voltage to give good amplification, and it follows that the panel battery can be used to supply the gate anode voltages. -screen of this lamp.



  The central unit battery also supplies the current for supplying the lamp catode 622, a voltage drop resistor 624 being introduced into the supply circuit of the catode in order to limit the current to a suitable value. .



   In order to provide the secretary's calling possibilities, a call buzzer 642 is also provided which is combined to be actuated in response to the operation of a call key 142 in an unstable position by a circuit comprising a conductor 149 forming part of the group of two conductors coupling the loudspeaker 136 to the output transformer 627. It should be noted that a circuit
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 enclosing the windings of the loudspeaker 136; the Scream

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 conductor 148 and the winding 629 of the transformer is connected in parallel with the conductor 149 forming part of the supply circuit of the buzzer 642.

   The impedance of this parallel circuit, however, is so high relative to the impedance of conductor 149, that only a negligible part of the buzzer supply current passes through it. Therefore, the operation of the buzzer does not cause significant reproductions of the pulsating direct current in the loudspeaker.



   Although the organs shown in detail in Figs, 1 to 6 inclusive can be arranged in any desired manner, it is assumed that only the organs shown in Figs, 1 and station 600 are placed in the chief's office. for the service of which it is intended. It is further assumed that the other components shown on the plans with the exception of the buzzer 642 are placed in the office where the various lines of the system end, a multiple conductor cable being provided to interpose the elements of the circuit in order to provide the layout. of the circuit shown on the plans and described above.



   Let us now consider the detailed operation of the special switchgear to establish a communication to one of the ordinary automatic stations, assuming that station A is called, and that the call is made by operating the key 100 in the position lower corresponding to the called set. Therefore the springs 114, 115 and 116 are actuated to connect the earth to the conductors 132, 133 and 134 and to actuate the relays 200, 210 and 220 in series with the relay 450.The three marking relays therefore apply

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 an earth via 201, 211 and 221 to conductor 277 and via cable 295 to the twenty-fifth contact of bank 311.

   It can be seen that if the key 100 is actuated in its upper position, the springs 112, 113 and 117 apply an earth to the conductors 131, 133 and 134 and thus cause the operation of the relays 200, 210 and 230 which simultaneously put on. earth the conductor 278. Similarly, the operation of the key 109 in its lower position earths the conductors 128, 130 and 133 thus actuating the relays 200, 240 and 260 which thereby put the conductor 279 to earth.



   In each case, three of the code relays are actuated as well as the relay 450 which by 452 and 453 respectively apply an earth on the conductors 407 and 408 starting the calling machine and the tone devices to cause the activation. in operation of this apparatus, and by 454 it applies a ground to the conductor 294 starting the amplifier to put the lamp 620 in the conditions to operate by transmitting a potential through the primary winding 628 of the output transformer 627 to the anode 623 of the lamp 620 and feeding the catode 622 through a circuit comprising the voltage drop resistor 624 and the bias resistor 625.

   It should be noted that a positive screen potential is applied directly to the screen from the positive earthed terminal of the central unit battery via conductor 294,
Relay 450 also establishes through 451 a circuit for relay 430 slow to pull from earth through 451, 422, 336, 519 ', 337, relay 430
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 towards the battery. The relay 450 attracts after a certain

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 time and by 435 activates relay 440.

   Relay 440 establishes a circuit through 441 for the electromagnet 319 of the switch which when energized advances the brushes one step and opens the contacts 319 ', thereby causing the relay 440 to locate. This by 441 opens the circuit of the electromagnet which releases and which again establishes its operating circuit so that the operation is repeated, The interaction between the relay 440 and the electromagnet 319 continues. until the brushes of the switch 310 reach the position corresponding to the called line 322 when the brush 315 engages the contact marked with an earth by the marking circuit indicated above. During the movement of the switch, the switching relay 430,

   because of its delay in release remains attracted. The earth found by the brush 315 when it engages on the twenty-fifth contact serves to actuate the relay 420 through its lower winding and by 425 this relay is blocked thanks to its upper winding. Relay 420 also opens by 426 the electromagnet circuit to stop the movement of the switch, by 422 it releases relays 430 and 440 and by 421 it prepares a circuit to test the conditions of the called line. . It is assumed that the central office automatic switchgear 320 conforms to the. usual practice in that when the line 322 is occupied, an earth is present on the control conductor 324 while when the line is free, a negative appears on this control conductor.

   Let us first consider the case of the called line 322 occupied, the relay 410 is energized by an earth on the conductor 324 via the
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 broom 316 bank 312 twenty-fifth contact, $ 334

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 421 and 432, relay 410 to the battery,
The relay 410 by pulling, establishes by 412 a blocking circuit for itself and establishes by 406 a circuit to give the busy tone to the input circuit of the lamp 620 through the conductor 406 of the tone of. occupation, of the capacitor 404, of 413, 465,528, 576, 676,644, of the windings 612 and 611 of the transformer, of the inductance 631 of the resistor 632, of 572, 521, 574, of the windings 613 and 614 of the transformer, from 671, from 575,

     524 and from the first upper half of the winding 501 to earth, This current produces an induced voltage in the transformer winding 615 which is reproduced through the coupling transformer 618 at the input terminals of the lamp 620 , and the amplified power at the output is distributed through transformer 627 and volume control potentiometer 141 to speaker 136. An audible signal is thus produced to indicate to the caller that the desired communication cannot. be immediately established.



   It is assumed that the extension with which the special equipment is associated is that of an important leader, such that calls made by this extension and intended for the various subordinate lines are important enough to ensure that the attention of the called will be directly attracted. For this reason we combined sending a dimmed signal on the called subordinate line when it is found busy.

   When relay 410 attracts, it establishes through 414 a circuit by which a bypass of the inrush current source is connected to the loop of the previously established circuit of which the called line is a part, from inrush current conductor 405 , capacitor 402, 414, 339, brush 318, twenty-

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 fifth contact of the bank 314 of the driver 326, of the receiver of the called station of the driver 325, and through a winding of the rear bridge relay of the actuated connector to the ground.

   The capacitor 402 included in this circuit has a value such that the current is flowing through the indicated circuit / insufficient to produce a signal which can interfere with the conversation in the established communication and including the line 322, although being strong enough to indicate that station A is called by the master station.



   No further operation of the switchgear occurs until the partially established communication is released. To release the communication, it suffices to restore the actuated key 100 to its normal position, which has the effect of opening the circuits of the four relays 200, 210, 220 and 450 which thereby release
When the first three of these relays release the marking on the twenty-fifth contact of bank 311 is deleted and relay 420 is released and by 421 it releases relay 410. Therefore the three relays 410, 420 and 450 release and l Common equipment 415 is available for new use. Note that when relay 450 releases, it removes the earth from the various start conductors.



   If the caller wishes, he can ignore the busy signal and wait until the established communication is released, in which case the equipment 415 is activated to establish the communication towards the line 322 as soon as it is released. becomes free. When this occurs earth is removed from conductor 324 and relay 410 releases and allows inrush current to be sent to the called line as will now be described.

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   If the called line 322 is free when it is chosen by the switch 310, the negative is present on the conductor 324 thereof and the relay 410 is not energized. In this case when the slow relay 430 releases, it establishes through 432 a circuit for the control relay 400 from the earth through 451, 411, the relay 400, 432, 421, 334, the brush 316 and the twenty-fifth contact associated with it to the negative at conductor 324.

   The relay 400 attracts after a relatively short time and by 401 energizes the relay 560. The relay 560 establishes by 567 a blocking circuit for itself, by 568 it applies a ground to the conductor 324 of the line called 322 to mark this line. as busy, by 569 it connects the call echo tone coming from the conductor 405 and by 561 and 562 it establishes a circuit to send the inrush current on the called line 322 from the conductor 405, 467, 557, 561, 339, the broom 318 and the twenty-fifth contact associated with it, the line conductor 326, the call unit of the called station, the line conductor 325, the brushes 317, 335, 562, 552 and the upper winding of relay 550 towards the battery.



   The desired call is established to be able to converse when the called station answers the call.



  When the receiver at station A is off-hook, a direct current bridge is established across line conductors 325 and 326 to energize the top winding of relay 550 enough to contain its contacts 556 marked " X "after which it draws fully by its two windings in series. Via 552 and 557, relay 550 opens the circuit to send the inrush current to the selected called line 322 and extends the loop of the
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 circuit from the station called to the exciting translator 500)

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 thereby relay 510. Relay 510 establishes through 511 a circuit for relay 540 in series with microphone 135 and transformer winding 138.

   The relay 540 prepares by 541 a circuit for the relay 530 and by 542 it opens at another point the circuit of the call echo tone.



   After the attraction of the relay 540, the desired conversation circuit is completely established the conversation battery feeding the loop passing through the station called A through the windings of the relay 510 of the rear axle; and microphone 135 through the circuit shown above and enclosing relay 540.

   Signal-carrying currents arriving at the special station and passing through the winding 503 and 504 of the translator 500 cause induced voltages in the winding 501, whereby signal-carrying currents flow through the system. anti-local impedance 630 and are amplified and reproduced by speaker 136 as previously described @ Audible frequency currents developed by the action of microphone 135 flow through the closed, low-impedance transmission circuit comprising the primary winding. mayor 138 of transformer 137 and capacitor 139. Such currents cause corresponding induced voltages in secondary winding 140 which are applied through conductors 146 and 147 to opposite terminals of the anti-local impedance system 630.



   The release of the established call is under the control of the caller. If the called party of station A hangs up his receiver before the key 100 is returned to its normal position, the circuit loop established for the called subscriber and terminating at the translator 500 is interrupted, causing the release of the relay 510.

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 and through 541 it opens the circuit of relay 540 and establishes a circuit for relay 530 through 527.



  Relay 530 although being of the slow pull type, attracts and blocks by 531 before slow releasing relay 540 releases and opens its initial circuit by 541. Relay 530 opens by 532 another point of the circuit relay 540 and microphone 135, and through 534 it applies an earth via 470 to the two starting conductors 407 and 408, in order to restart the tone and bell devices, assuming that these organs are already not in operation.



  Relay 540 on releasing establishes through 549 another circuit to apply the busy tone to the input circuit of signal amplifying lamp 620, thereby causing the loudspeaker to reproduce a busy signal. This indicates to the calling station that key 100 has not been returned to its normal position,
The purpose of the presence of the relay 530, which attracts in response to the release maneuver executed by the called subscriber, is to effectively prevent eavesdropping on the part of a subordinate after a conversation between the subordinate and the master station. appellant.

   Consequently, in the absence of this relay and its associated circuits, the call from station A can, after hanging up, pick up its receiver again to establish communication provided that the actuated key 100 is not returned to its normal position. by the appellant. Relay 510 would then respond to the reestablishment of the circuit loop and re-establish the circuit to send current to transmitter 135. Obviously, with this communication reestablished, the subordinate can listen to any conversation in progress with the head office.

   With the arrangement shown

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 however, the attracting relay 530 is kept pulled independently of the relay 510 and by 532 it opens the circuit indicated above through which the supply current is sent to the microphone 155. Therefore, the channel which is used to transmit the currents of. Signals from the special station to the called station are made completely inductive and any listening by a subordinate is effectively prevented.



   Common control equipment 415 is released upon reestablishment of key 100. When this occurs, relays 200, 210 and 220 and relay 450 are all released. When the first three relays release, the circuit for 420 / is interrupted and it releases by releasing by 432 the relay 560, When releasing the relay 560, the contact springs controlled by
562 come into contact before the loop of the circuit passing through the called station is interrupted, provided that the called party has not hung up its receiver, from where it follows that the capacitor 543 is connected through 551 between line conductors 339 and 335.

   This capacitor absorbs the transient potential difference which occurs when the conversation loop is interrupted by 561 after the complete reestablishment of 560 in its normal position which consequently has the effect of preventing transient phenomena from being reproduced as an Inadmissible "click" in the receiver of the called station.



  Relay 560 also causes relay 550 to release via 565 which, via 555, releases relay 530, if this relay has been actuated. All the common control equipment 415 is then returned to its normal position.



   If the manager wishes not to be disturbed by incoming calls routed through line 323 while a

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 direct call from a line, as described above, is in progress it can prevent these incoming calls by activating the transfer switch 110 which is used to mark the line 323 as busy at the bank contacts of the connectors which give access to it .

   The circuit for applying the earth to the conductor 329 starts from the middle and left springs of the switch 111, through the left and middle springs of the switches 110, 152, 273, 251 and 455 to the conductor 329, It follows, that the line 323 is tested as occupied by all the automatic switches that try to gain access to it and therefore the master station is protected against incoming calls coming through this line
After establishing direct communication with a line in the manner just described, extension 600 can, if desired, be used instead of the auxiliary transmitter and receiver to connect to the line. Communication.

   Let us consider the operation of relays 670, 680 and 690, when the micro-telephone of extension 600 is on-hook, the circuit loop passing through extension 600 via line 323 to switching devices 320 is open and relays 670 , 680 and 690 are not actuated, it follows that the conductors of lines 575 and 576 are connected by means of the armatures 671 and 676 to the line terminals 643 and 644 of the network 630. Further with the micro- de phone in place / such that 670 is released, line conductors 327 and 328 of line 323 from the station are connected through the armatures 674 and 675 to the line conductors terminating at the station 600.



  As long as the call keys and answer key 111 are in their normal position, the amplifier start lead 294 is not set.

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 earth so that the operating circuit of relay 670 is interrupted independently of the switching fork of the apparatus 600. Thus when no direct call communication is established, the extension 600 can be used in the usual manner for remission and reception of calls from or arriving at the master station.



  If, after the call communication described above is established, it is desired to use the micro-telephone, it is lifted, which has the effect of closing the direct current bridge between the line conductors leading to the station cited. Relay 680 is therefore energized by a circuit starting from one of the terminals of, the central unit battery, by a winding of the line relay associated with line 323, 327, 674, relay 680, the bridge at the terminals of the line of the apparatus 600, 675, 328, and through the other coil of the line relay associated with the line 323 to the other terminal of the central office battery. Relay 680 energizes relay 690 through 681 which is slow to attract and which partially attracts to close its contacts 693 marked "X".

   These contacts re-establish a circuit for relay 670 from ground to 294, 693, 692, 673 and the bottom winding of 670 to the battery. Shortly after, the relay 690 completes its attraction and by 692 opens at a point the circuit which has just been described and by 691 opens the short-circuit established on its upper winding, which has the effect of making it faster on release. . The armature springs of relay 670 are adjusted so that the two armatures 674 and 675 leave the normally-closed contacts with which they are respectively associated to engage with the respective make contacts before the armature 692 of the relay 690 leaves its associated idle contact.

   Therefore when

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 Attracting 670, this relay establishes a blocking circuit for itself and for relay 680 before the operating circuit is interrupted. This blocking circuit starts from the earth at conductor 294, via the upper winding of relay 670, 675, the bridge established in station 600, relay 680, 674, the lower winding of relay 670 towards the drums. The supply current is given to the microphone transmitter through this circuit. Via 671 and 676, relay 670 disconnects conductors 575 and 576 from line terminals 643 and 644 of the imperdance anti-local system 630 and connects these conductors through capacitors 678, 679 and 682 to the terminating line conductors. at extension 600.



  Therefore the transmitter and receiver forming part of station 600 are / placed by the auxiliary transmitter and receiver in the established communication.



   When the operating circuit of 670 is established a relatively strong current flows through the upper winding of the relay, this current being significantly reduced when the operating circuit is interrupted and the blocking circuit is established.



  Due to the weakening of the magnetic field by the interruption of the operating circuit, a relatively large transient voltage tends to develop across the windings of 670, which if not absorbed, will be transmitted through the capacitors 678 and 679 at the terminals of the winding 501 of the translator or at the terminals of the winding 301 depending on the position of the relay 520. If this voltage were allowed to reach its full value, this transient phenomenon would produce a " clack "invalid in the receiver used at the far end of the call.

   To avoid this

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 relay 670 is fitted with an armature 677 intended to short-circuit the signal transmission path comprising conductors 575 and 576 during the initial attraction of 670. The springs of this armature are adjusted so that they do not open before the transient phenomenon is appreciably damped.

   By this arrangement the transient voltage is dissipated in a closed circuit comprising the capacitors 678 and 679, the two windings of 670, the winding of 680 in shunt with the capacitor 682, the central battery and 677. It is to be noted that when the relay 670 attracts to connect the station 600 for use in a communication established directly with the line, the terminals 643 and 644 of the impedance anti-local system 630 remain open circuit and it results that this system is not balanced such that an electrical coupling is incidentally provided between the receiving and transmitting circuits of the signal carrying currents terminating at loudspeaker 136 and microphone 135, respectively.



  Further, coupling exists between microphone 135 and speaker 136, and the signal amplifier including lamp 620 is still under current and in working condition. As a result of these couplings local oscillations tend to be established in the system comprising the signal amplifier, the microphone 155, the loudspeaker 136 and the impedance anti-local system. If we allow these conditions allowing these oscillations to persist, we get a howl or a whistle.



  To overcome this difficulty, relay 670 is provided with an armature 672 to bypass the input circuit to loudspeaker 136 thereby effectively interrupting the local oscillatory circuit and preventing

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 in time the howling when the auxiliary transmitter and receiver are in working condition but they are disconnected from the established communication.



   The auxiliary transmitter and receiver can be replaced by the micro telephone most often by hanging up the latter which has the effect of opening the direct current bridge in extension 600. When this occurs, relays 670 and 680 are released this which has the effect of releasing relay 690 by relay 680 and disconnecting station 600 from the communication established by relay 670 which opens the short-circuit at the terminals of winding 629 and reconnects the conductors 575 and 576 to line terminals 643 and 644 of the impedance anti-local system 630.



   It can be seen that, as soon as the relay 670 is pulled, it is only de-energized in response to hanging up the microphone. Thus, in order to release a direct call communication which has been established in the manner previously described and to which the set 600 is connected, it is necessary to return the activated call key and also to hang up the microphone. When the key is returned to its normal position, the actuated relays of figs. 2, 4 and 5 release as previously described, and when relay 450 drops off, earth is removed from conductor 294 to open the operating circuit of relay 670 at one point. When the micro-telephone is on-hook, the circuits for relays 670, 680 and 690 are interrupted in the manner which has just been described.



   As noted above, extension 600 is normal.
 EMI24.1
 connected and handset to be used for calls

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 incoming from the head post. However, the special station is combined in such a way that the auxiliary transmitter and receiver comprising the microphone 135 and the
136 can speakerphone - if desired, be used instead of regular extension 600 to answer incoming calls.



  For example, if a call is made from extension A and routed through automatic switchgear 320 and line 323 to extension 600 at a time when line 323 is free, inrush current is sent on the line to activate ringer 641 and indicate that the master station is called. The call can be received in the usual way by picking up the microtelephone in which case the successive operation of the relays 680 and 690 has no effect since the earth is not present on one or the other of the conductors 294 and 694 and that 'it follows that the relay 670 is not energized.

   Alternatively, the auxiliary transmitter and receiver comprising speaker 136 and microphone 135 can be used in which case the response switch 111 is actuated to close the springs 125 and thereby establish a circuit for the relay 370 in series with the lamp 126 which lights up to indicate that the response switch 111 is in its working position. The relay 270 by 273 energizes the relay 520, by 272 11 applies a ground to the conductor 294 starting the amplifier and by 271 it establishes a direct current bridge across the terminals of the conductors 327 and 328 of the called line. 323, this bridge comprising the two windings 303 and 304 of the translator 300, and serving to stop the inrush current in the usual manner.

   The relay 520 establishes by 528 'a supply circuit of the microphone 135 and a circuit

 <Desc / Clms Page number 26>

 operation of relay 540, by 527 it opens the circuit of relay 530 at one point, by 523 'it opens the normal short-circuit of winding 301 of transformer 300, by 525' it short-circuits the winding 501 of the transformer 500 to prevent crosstalk and through 524 and 528 it disconnects the conductors 575 and 576 of the winding 501 of the translator 500 and it connects them through the junction line conductors 296 and 297 to the opposite terminals of the winding 301 of the translator. Therefore translator 300 is part of the newly established conversation circuit instead of translator 500 which is used for subordinate calls sent by the special station.



   Since the impedance characteristics of the circuit loops enclosing the transla- tors 500 and 300, respectively, may be different, it is desirable to provide two combined line balancing circuits to be introduced alternately into the impedance anti-local system 630. With the relay 520 de-energized the line balancer circuit comprising inductor 631 and resistor 632 is included in the impedance anti-local system 630, but when relay 520 attracts it substitutes inductor 651 'and resistor 632' with 521.



  It is understood that the line balancing circuit comprising the inductor 631 ′ and the resistor 652 ′ is adjustable in order to obtain a frequency-impedance characteristic substantially counterbalancing the equivalent impedance of the translator 300 and of the impedances of the lines which to it. are associated and determined to the line terminals 643 and 644 of the impedance system 630. Likewise the line balancing circuit comprising the inductor 631 and the resistor 632 is adjustable in order to obtain a characteristic.

 <Desc / Clms Page number 27>

 frequency-impedance tick substantially the same as that of the equivalent impedance of the translator 500 and of the line impedances associated with it and determined at the line terminals 643 and 644 of the impedance system 630.



   After operation of relay 520, the desired talk communication is fully established.



  As a result, the called party can, by picking up the microphone, release the auxiliary transmitter and receiver and continue the conversation using the ordinary transmitter and receiver of the station. When the micro-telephone is off-hook, relays 670, 680 and 690 pull as previously indicated to disconnect the set from line 323 and connect it to conductors 575 and 576. Note that with relays 270, 520 and 670 activated, the station 600 is connected to work with the line 323 by another route, namely, that comprising the trunk line 575, 576, the trunk line 296, 297 and the transformer 300.



  With relays 270 and 520 actuated, it is obvious that by hanging up and picking up the micro telephone, the called party can substitute one group of devices for the other as many times as he wishes during a single conversation. .



  When, however, the response switch 111 is returned to its normal position, the circuit of the relay 520 is interrupted so that this relay and the relay 540 release and the series circuit for the supply of the signal lamp 126 and the relay. 270 is interrupted so that the relay releases and removes the ground of the conductor 294 of starting of the amplifier, thus making the signal amplifier inactive and by 271 it opens the circuit in bridge between the conductors 327 and 328 of line 323. When the relays

 <Desc / Clms Page number 28>

 520, 540 and 270 release the auxiliary transmitter and receiver are fully disconnected from line 323.



  If desired, the receiver of station 600 can be kept off-hook when the answer switch 111 is returned to its normal position. In a similar case the station is directly connected to line 323 when relay 670 releases in response to removing ground from conductor 294 and can be used in the usual manner.



   To make a call from the special set to a line which is not directly accessible by the special switching device, such as for example line 321, it is necessary to use the disk generally included in the set. 600. Such a call is made in the usual way by picking up the microphone, which has the effect of looping the conductors 327 and 328 of line 323 and causing the equipment to be extended by a non-digital switch. switching 320 from the loop of the calling circuit to one of the central digital switches. When the calling party loop is established, relays 680 and 690 attract but no effect since conductors 294 and 694 are not grounded and therefore relay 670 is not energized.

   The digital switch entered and possibly one or more additional switches respond successively to the various digits sent by the disk of the calling station and route the communication to the called line 321 in the usual way. If the called line is busy, the busy tone is sent to the caller and gives an indication audible to the receiver of extension 600 that the desired call cannot be obtained. If the

 <Desc / Clms Page number 29>

 called line is free, the inrush current is sent on this line to activate the calling device of the called station and the call echo tone is returned to the circuit of the calling party to indicate to the latter that the desired extension is ringing.

   When the call is answered by the called station, communication for the desired conversation is established in the usual manner.



   After establishing a communication with station B in the manner just described, the auxiliary transmitter and receiver can be replaced by the transmitter and receiver of the microphone. phone. This is done by activating the answering switch 111 to cause the pulling of the relays 270, 520, and 540 and then hanging up the microphone.



  The three relays attract to perform the functions previously described and furthermore relay 270 establishes a circuit for relay 670 from earth at 272, 274, 694, 692, 673, the lower winding of 670 to the battery. Relay 670 therefore attracts to perform the various switching functions previously explained.

   When the telephone is on-hook, the blocking circuit of relays 670 and 680 is interrupted, which has the effect of releasing relays 680, 690 and 670 in turn and relay 670 connects conductors 575 and 576 to line terminals 643 and 644 and by 672 opens the short circuit of the transformer winding 629, Therefore the auxiliary transmitter and receiver are connected to the line 323 by a path comprising the trunk line 575, 576, the trunk line 296 and 297 and the transformer 300, '
It should be noted that the aim pursued by operating the response switch 111 before

 <Desc / Clms Page number 30>

 to hang up the microphone is to prevent the automatic switch train from being released prematurely,

   Therefore if the microphone is hung up before the answering switch 111 is actuated the circuit loop leading to the train of actuated switches forming part of the switching equipment 320 is interrupted. If this equipment operates when the caller hangs up, the stable communication will be released during the time interval between the opening of the calling party's loop and the operation of the answer switch 111. If, however, the answer switch 111 is activated before hanging up the microphone, relay 270 establishes through 271 a multiple circuit loop which prevents the release of the set of actuated switches.



   It should be noted that the ordinary transmitter and receiver of the station can be substituted at will for the microphone 135 and the speaker 136 by picking up the microphone telephone, the three relays 670, 680 and 690 acting to effect the transfer in the manner previously described.



   The caller using the master station can use the special station to make a direct call to one of the subordinate lines during the conversation through the ordinary switching equipment 320. If the existing conversation takes place through the ordinary transmitter and receiver of the station, the second call to the subordinate line can be made exactly as described above.

   For example, if the caller uses the micro-telephone to converse with the agent of station B and wishes to inquire with a subordinate at station A, the direct call to station A is made.

 <Desc / Clms Page number 31>

 by operating the key 100 in its lower position in the manner described above and which has the effect of establishing a communication comprising the loudspeaker 136 and the microphone 135 between the head station and the A station.



  As noted previously, one of the functions of relay 450 is to apply an earth to conductor 294 to put the amplifier into operating conditions and to prepare one of the operating circuits of relay 670. Since, however, relays 680 and 690 are fully pulled when relay 450 pulled, this circuit of operation for relay 670 is not established since it is held open at 692.



   Consequently, as long as the micro-telephone is not hung up, the transmitter and the receiver which are part of it are connected to line 323 in order to have a communication through the latter. In addition, the auxiliary transmitter and receiver are effectively connected for use in communications established directly with the lines. After / two communications are established if the microphone is on-hook and then off-hook relay 670 attracts to disconnect the auxiliary transmitter and receiver from direct communication with the line, to disconnect the extension from line 323 and to connect this extension in order to use it for communications directly established with the lines.

   In detail, when the micro-telephone is on-hook, the calling circuit loop is interrupted causing the relays 680 and 690 to release. These relays in turn re-engage when the micro-telephone is then picked up .. relay 690 first closing the contacts 693 marked "X" to establish the operating circuit of relay 670

 <Desc / Clms Page number 32>

 previously indicated. Therefore, relay 670 attracts to perform the transfer operation described above.



   If, with the two communications established, it is desired to connect the micro-telephone to the communication established directly with the line without releasing the first communication, namely that established by means of the automatic switches of the switching equipment 320. The control switch response 111 and transfer switch 110 are activated in turn. When key 111 is actuated, relays 270 and 520 are energized and relay 540 is released as explained previously.

   Relay 270 establishes through 271 the loop of the multiple calling circuit indicated above in order to prevent the release of the actuated switches of equipment 320 and through 272 and 274 it establishes the other circuit of relay 670 indicated above which draws to establish the blocking circuit, for itself and for relay 680, indicated previously.



  With relays 270, 520 and 670 activated, the station is connected through trunk line 575, 576, trunk line 296,297 and transformer 300 to line, 323. When transfer switch 110 is next actuated relay 520 releases and disconnects the station from line 323 and connects it to the communication established directly with the line. Obviously by activating and re-establishing transfer switch 110, extension 600 can be transferred from one communication to the other at will. In addition, by picking up the microphone and hanging up, the ordinary transmitter and receiver and the auxiliary transmitter and receiver can be switched on.

 <Desc / Clms Page number 33>

 interchanged and connected to one of the two established communications.

   The switchgear is released as described above when keys 100, 111 and 110 are all returned to their normal position. If the loudspeaker 136 and the transmitter 135 are used as receiver and transmitter in an established communication terminating at station B, and it is desired to use the special station to make a call to one of the subordinate lines, for example the line 322 which can be reached directly by this device, it is necessary to actuate the key 100 and then the key 110. When the key 100 is actuated the members shown in Figs. 2, 3, 4 and 5 route a call to line 322 in the manner previously described.

   Since the relays 270, 520 and 540 are activated, the amplifier is in working conditions and the line conductors 575 and 576 leading to the impedance anti-local system 630 are connected to the translator 300. The fact that these relays are actuated does not in any way hinder the attraction of the other relays contained in the common control equipment 415 so that communication to the desired subordinate line 322 can be established. When the transfer switch 110 is then actuated, the circuit for relay 520 is interrupted by 124 and that relay releases.

   Therefore it disconnects the conductors 575 and 576 from the winding 301 of the transformer and connects them to the winding 501 of the transformer, thereby incorporating the auxiliary transmitter and receiver in the established communication leading to the line. subordinate called 322. Relay 520, when released, also disconnects conductor 574 from conductor 573 and connects it to conductor 572 replacing it.

 <Desc / Clms Page number 34>

 therefore the line balancer circuit suitable for translator 500. With relay 520 de-energized, the initial circuit of the drawn microphone 135 supply and blocking current 540 is interrupted by 528 '.



  At this time, however, relay 510 is actuated such that a multiple circuit is established to keep relay 540 engaged and to supply current to microphone 135.



   It should be noted that in order to perform the transfer maneuver which has just been described, the transfer switch 110 is actuated without the response switch 111 being returned to its normal position. As long as switch 111 is actuated the above-stated circuit for relay 270 remains on and while so the loop circuit passing through station B and including line 322 is kept established by 271. After that the two communications leading to stations A and B respectively are established, the attendant of the master station can, by a suitable operation of the transfer key, converse either on one or on the other of the two communications at will.

   Thus, if the attendant at the master station, after having conversed with the called party from station A, wishes to converse again with the subscriber of station B, he can do so by returning the transfer switch 110 to its normal position to restore the circuit. indicated above for 520 which then attracts and causes the results previously described.



  It can also be seen that the relay 670 can be controlled by lifting and hanging up the micro-telephone so that it connects in order to use it alternately with the auxiliary transmitter and receiver for one of the two established communications.

 <Desc / Clms Page number 35>

 



   In order to release the two established communications, it suffices to return the switches 100 and III actuated to their normal position and to hang up the micro-telephone. When switch 100 is returned to its normal position, relays 200, 210 and 220 release and cause the still actuated relays of common control equipment 415 to be reset as already described. When the response switch 111 is returned to its normal position the actuated relays of the relays 520, 540, 270, 670, 680 and 690 are de-energized and released in the manner previously described.



   With the arrangements shown ', if the attendant at the master station is in conversation by a communication established directly with the line routed through the intermediary of the switch 310 and he wishes to obtain information from another party having a terminating line. at the central office, it suffices to release the established connection and then make a second call.



  This maneuver must be done because the relay 450 is always actuated incidentally to the establishment of a direct communication with a line and it follows that a ground is connected to the conductor 294. Consequently the pickup of the micro-telephone at this time will most often cause the attraction of relay 670.



  Obviously with the relay 670 activated, pulses cannot be transmitted from the call unit of the apparatus 600 by the line 323 to the automatic switching equipment 320.



   In order to overcome this difficulty, a second appeal member 350 connected to line 323 in the manner represented by the dotted line may be provided.



  Note that the connection bar between the

 <Desc / Clms Page number 36>

 terminals 355 and 356 is removed and that these terminals are connected to the pulse springs 351 and 352, and that the shunt spring 353 is connected to the line conductor 328. Under these circumstances the pull of the relay 270 in response to the maneuver of the answer switch 111 has the effect of establishing a calling circuit loop through line 323 which contains the pulse springs 351 and 352. This loop circuit is therefore interrupted one or more times with each operation. of the appellate body.

   Whenever the disc leaves its normal position the shunt springs 353 and 354 make contact in the usual way to establish an obvious circuit to bypass the transformer windings 303 and 304 and resistor 306 and put them out of the way. pulse circuit.



  Thus after a communication has been routed through the automatic switching equipment to a called station in response to the action of the caller unit 350, the telephone of the station 600 or the auxiliary transmitter and receiver can be used to communicate by this communication and furthermore either transmitter-receiver group may be transferred at will from communication passing through automatic switching equipment 320 to direct communication with the line carried by the switch 310 and by acting in the manner previously described by actuating the transfer switch 110 as appropriate.


    

Claims (1)

CLAIMS. 1. A telephone system comprising an extension capable of establishing direct communications by the operation of selection keys using a circuit different from that controlled by the ordinary disc, in which provision is made for communications from two types can exist simultaneously, the transfer from one communication to the other taking place if desired in response to the operation of a key. 2. A telephone system comprising an extension having loudspeaker equipment in addition to regular / telephone equipment, in which if the loudspeaker equipment was first employed, the operation of the contacts. of the switching fork caused by the release of the equipment; ordinary telephone modifies the circuits to disable equipment with the loudspeaker and to connect ordinary equipment in a different circuit from that employed if ordinary equipment is used externally. 3. A telephone system comprising a station having equipment with a loudspeaker in addition to the ordinary telephone equipment and possibilities for establishing direct communications by the operation of selection keys using a circuit different from that controlled by the telephone. ordinary disc in which provisions are made to allow one or the other telephone equipment to be used for each type of call, the transfer of the equipment from one call to another being effected by the operation of a key while transferring telephone equipment <Desc / Clms Page number 38> to the other is made in response to the operation of the contacts of the switching fork. 4. A telephone system as claimed in claim 1, wherein operation of one of the selection keys serves to actuate appropriate relays of one such group of code relays, / relays thereby marking a contact corresponding to the bank of. 'an automatic rotary switch which automatically searches for the marked contact in order to establish the desired communication through its brushes. 5. A telephone system as claimed in claim 1, wherein if the desired party is busy when called by the key controlled equipment, a distinctive tone is applied to the existing call. 6. A telephone system as claimed in claim 1, in which an additional disk is provided to allow additional communication to be established while direct communication with one of the lines already exists. 7. A telephone system as claimed in claim 2, wherein the equipment with loudspeaker is only connected if the operation of one of the keys has been performed beforehand. 8. A telephone system as claimed in claim 2, wherein the transfer under control of the fork switch contacts is caused by a relay interposed in series in the line when ordinary equipment is used. 9. A telephone system as claimed in claim 8, wherein the relay which performs the <Desc / Clms Page number 39> transfer of the connection to pass from the equipment with loudspeaker to the ordinary telephone equipment is only energized during the operation of the switching fork if a key operation has been performed beforehand. 10. A telephone system as claimed in claim 1 or 3, wherein the transfer of ordinary equipment from one call to the other is effected by a relay which is combined to be kept actuated in series. with ordinary equipment. 11. A telephone system as claimed in claim 2 or 3, wherein the loudspeaker equipment is connected to answer an incoming call in response to the operation of a key. 12. A telephone system as claimed in claim 2 or 3 wherein if the loudspeaker equipment is turned on at a time when the ordinary equipment is in use, the output of the first quoted is bypassed. 13. A telephone system as claimed in when claim 2 or 3, wherein the remote party hangs up after use of the speaker equipment, the microphone drive circuit associated with that speaker is open regardless of whether or not the speakerphone is used. any action performed by the correspondent using this equipment. 14. A telephone system as claimed in claim 13 wherein until the party having the loudspeaker equipment restores the circuits to their normal condition, a warning tone is given by the loudspeaker as soon as possible. that the remote party hangs up. 15. A telephone system as claimed in claim 3, wherein a balancing system is / <Desc / Clms Page number 40> designed to create an anti-local device for the loudspeaker equipment, the component values being automatically adjusted to maintain the balance both for communications established directly with the lines and for communications by the or- dinaire. 16. A telephone system as claimed in claim 2 or 3 in which a signaling circuit to a party, such as a secretary, is provided to be established using one of the branches of the loudspeaker supply circuit. 17. A telephone system as described herein and shown on the attached plans.