US1868326A - Telephone system - Google Patents

Telephone system Download PDF

Info

Publication number
US1868326A
US1868326A US417840A US41784030A US1868326A US 1868326 A US1868326 A US 1868326A US 417840 A US417840 A US 417840A US 41784030 A US41784030 A US 41784030A US 1868326 A US1868326 A US 1868326A
Authority
US
United States
Prior art keywords
relay
trunk
circuit
armature
attendant
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US417840A
Inventor
Gerald V King
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AT&T Corp
Original Assignee
Bell Telephone Laboratories Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Bell Telephone Laboratories Inc filed Critical Bell Telephone Laboratories Inc
Priority to US417840A priority Critical patent/US1868326A/en
Application granted granted Critical
Publication of US1868326A publication Critical patent/US1868326A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M3/00Automatic or semi-automatic exchanges
    • H04M3/60Semi-automatic systems, i.e. in which the numerical selection of the outgoing line is under the control of an operator

Definitions

  • This invention relates to telephone systems and particularly to private branch exchange systems.
  • An object of the invention is to insure greater secrecy in conversation between subscribers and to otherwise improve the service at private branch exchanges.
  • a feature of this invention is a system of this general character adapted for private branch exchange service in which the attendant may, after having established a connection from her telephone set to a private branch exchange subscriber, listen out by manipulation of keys and simultaneously automatically connect said private branch exchange subscribers line with a waiting trunk connection from a distant central he private branch exchange subthereby positively assured that the scriber is attendant has listened out on the connection and secrecy secured, as conversation between the private branch exchange subscriber and the party on the telephone connected at the distant end of the trunk is prevented until the attendant has listened out.
  • Another feature is a system of this kind in which the attendant, after having once listened out, cannot again by her own volition connect with the established connection between. the private branch exchange subscriber and the trunk.
  • Another feature is a system of this kind in which a private branch subscriber may by manipulating his 'switchhook cause circuit changes to take place in the trunk circuit to permit the attendant to again listen in on the connection by manipulating a key and in which, when the attendant actuates said key, the connection between the private branch exchange subscriber and the trunk is split and the trunk connection held, to provide secret service between the attendant and the private branch exchange subscriber.
  • Fig. 1 shows a trunk circuit incoming to a private branch exchange embodying the invention
  • Fig. 2 shows an attendants telephone equipment at this exchange.
  • the subscriber may in the usual manner connect with the trunk 2 through the line finder and selector-connector LF and SC respectively, which may be of any type well known in the art.
  • LF and SC selector-connector
  • This circuit may be traced from battery, winding of relay 5, lower innerarmature and back contact of relay 6, second upper armature and back contact of relay 7, lower outer armature and back contact of relay 8 through the ring terminal and over the loop at the subscribers station, back through the tip terminal of 10, or from ground at the upper inner armatrunk 2 upper outer armature and back contact of-relay 8, lower inner armature and backcontact of relay 10 to ground at the upper inner armature and back contact of relay 7.
  • the operation. of relay 5 closes at its lower outer armature and front contact, a
  • Relay 5 also causes the operation of relay 11 over an obvious circuit through the upper winding of relay 11, andconnects a bridge across the tip and ring conductors of the trunk 2 as follows: From the tip conductor. of the trunk through the upper outer armature and back contact of relay 13, fourth lowerarmature and back contact of relay 11,,
  • Relay 11 in operating connects another bridge across the trunk conductors through its first and second inner upper arniatures andfront contacts in substitution of the bridge established by relay 5 through its third upper armature and front contact.
  • lay 11 also connects the ring conductor of the trunk through resistance 1 1 to ground as follows: from the ring conductor, the second upper armature and front contact of relay 11,
  • Relay 11 also opens a circuit for relay 16 normally connected across the tip and ring conductors through its second lower 7 tact which will be controlled at the upper middle armature and front contact of relay relay operates.
  • Relay 1? also causes the operation of relay 6 over an obvious circuit.
  • Relay 6 in operating establishes a circuit for holding relay 18 operated at a subsequent operation of this latter relay. It also disconnects ground at its lower armature and back contact from a flashing circuit as will be hereinafter described.
  • the non-inductive shunt winding ofrelay 18 is open at this time at the upper outer armature and front contact of relay 15 so as to give this relay a better oper- Relay 15 will now operate over an obvious circuit closed by the operation of relay 18.
  • This relayopensa ringing bridge across the tip and ring conductors as will hereinafter be described and closes the above mentioned no11 inductive shunt for relay 18.
  • Relay 15 also opens the call originating ground connection through resistance 1% .at its lower armature and back contact and causes the energization of relay 13 over an obvious circuit.
  • Relay 8 is also operated over a circuit closed by relay 15 as follows: battery winding of relay 8, third.
  • Relay 13in operating provides a locking circuit for itself to ground at the lower outer armature and front contact of relay 6'.
  • Relay Sin operating closes a locking circuit for itself under control of relay 17.
  • the locking circuit extends through the third upper armature and back contact of relayT, the'second lower armature and front contact of relay 8, andthe lower inner armature and front contact of relay 17 to ground on the sleeve conductor.
  • Relay 8 in operating closes a circuit for the operation of relay 20 as follows: from batter'y,'winding of relay 20, third upper armature and front contact of relay 8, upper inner'armature and back contact of relay 21 to ground at the upper inner armature and front contact of lay 5.
  • Relay 8 also in operating removes the ground and battery connections from'the gin.
  • Relay 8 at these contacts also extends the tip and ring conductors from the calling subscriber to the outgoing trunk conductors 98 and 99 leading to the central office.
  • Relay 6, however, is held operated through its upper winding, upper inner armature and front contact to ground at the second upper armature and front contact of relay 8.
  • Relay 5 is slow in rel-easing and is therefore held operated for an instant so as to maintain the holding bridge across the tip and ring conductors of the trunk while relay 8 is in the act of operating.
  • Relay is followed by the release of relay 11 and when both relays are returned to normal condition all holding bridges are removed from the trunk.
  • the release of relay 11 closes a locking circuit for relay 1? as follows: from battery through the winding of relay 17, middle upper armature and back contact of relay 21, upper outer armature and fr nt contact of relay 17, middle upper armature and front contact of relay 15, hird up 5 er armature and back contact of relay 11 to ground at the armature and front Contact of follow the dial pulses as its windings are included in the tip conductor, but relay is slow in releasing so as to hold up during pulsing to maintain the circuit conditions in trunk 2 at the private branch exchange as hereinbefore described.
  • Relay 16 When the desired subscriber has been rung and answers, the talking connection is extended through and conversation between the subscribers may be- At the end of the conversation if the private branch exchange subscriber hangs u) firstprelays 18, 15, 17, 8 and 6 will be released in the order named.
  • Relay 16 will now be connected across the trunk conductors through. contacts of relays 8,11, 5 and 15.
  • Relay 16 operates to hold the private branch exchange end of the trunk busy by maintain- Vingrelay 13operated over an obvious circuit. It should be observed that the resistance of relay 16 is high so as to cause the usual disconnect signal to be given at the central ofiice.
  • relays 16 and 13 in the trunk are restored and the switches SC and LF are released as the ground is removed from the sleeve conductor. If the central. office end of the trunk is first to be released, relays 18, 1.5, 17 and 8 are restored in succession and relay 5 is reoperated over the private branch exchange subscribefls loop be fore relay 6 has time to release as it is slow in releasing. Relay 5 continues to hold relay 13 operated until the private branch exchange subscriber hangs up the receiver. WVhen this occurs, relays 6, 5 and 13 are released and the switches SC and L? are restored to normal.
  • relay 16 in operating closes a circuit for the lighting of a trunk busy lamp TB as follows: battery lamp TB, upper inner armature and back contact of relay 21, upper inner armature and back contact of relay 13, armature and front contact of relay 16 to ground.
  • Relay 16 also makes the sleeve terminal of the selector connector SC and others in multiple therewith busy by applying a ground at its armature and front contact to the sleeve conductor, through the contact of relay 13 hereinbefore mentioned, fourth upper armature and make-beforebreak contact and third upper armature and back contact of relay 10, upper inner armature and back contact of relay 20 to the sleeve conductor.
  • This trunk is thereby prevented from being seized by a calling private branch exchange subscriber through an idle selectorconnector.
  • Ringing current is now applied at the central office causing ringing relay 23 to operate.
  • This relay is also bridged across the tip and ring conductor of the trunk in parallel with relay 16.
  • Relay 23 in operating armatue and back contact of relay 21 to the conductor 32 which may pass to ground through the usual alarm circuit, not shown.
  • Relay 17 closes a locking circuit for itself to ground at the middle upper armature and back contact of relay 13.
  • relay 6 It also causes the operation of relay 6 over an obvious circuit and the lighting of the incoming trunk call line lamp ITC over a circuit as follows from battery (not shown) over lead LB, lamp ITC, lower outer armature and front contact of relay 17 lower inner armature and back contact of relay 8, second upper armature and back contact of relay 11, second upper armature and back contact of relay 10, outer lower armature and back contact of relay 11 to ground at the lower armature and back contact of relay 15. establishes a ground connection for the sleeve conductor in substitution of the one established by relay 16.
  • Relay 17 is slow to operate in order to prevent its operation on a momentary operation of relay 28, and thus prevent premature lighting of the lamp ITO a. on line surges that might occur for example when the trunk is seized at the central office.
  • the attendant On the lighting of the incoming trunk call lamp ITC the attendant responds by operatthird lower armature and front :contact'of ing the key 100, associated with the trunk 2,
  • Relay 10 connects the listening conductors T and R from the attendants equipment to the central office end of the trunk at the upper outer armature and front contact andthe relay 10. This relay also causes the energization of relay 7 over allObVlOllS circuit.
  • a lay 7 in energizing opens the circuit for relay i and second upper armatures and front contactsrespectively. The purposeof these connections will become apparent as the descrip-v tion proceeds.
  • the incoming trunk call lamp ITC is extinguished by transferring" the ground connection for this lamp to conductor OC. 7
  • Relay 7 closes a holding'circuit for relay 17 atits upper outer armature and front contact and closes an obvious circuit for the operation of relay 1% at the lowerarmature and front contact.
  • Relay13-in operating opens the original locking circuit for relay .1? ounds the original busy circuitfor the.
  • the attendants telephone equipment A is now connected to the tip and ring conductors of the trunk 2 towards the central office over the listening leads T and B through the contacts of relays 101, 102 and 10 an'dalso furnishes a tripping circuit for the ringing and an operating path for relay 18.
  • Relays 18 and 15 now operate; the latter relay closes the non-inductive winding of relay 18, and opens the circuits for relay 16 and ringing relay 23.
  • the attendant may nowdetermine the desired number and then operate the trunk extension key 103, thereby closing an obvious circuit for the operation of relay 10 1; This relay in operating closes a circuit to ground at key 110, for the lead 1C over its upper outer armature and front contacts and contacts of relays 108 and 109.
  • Relay 104 also causes the energization of relay 102 over an obvious circuit.
  • Relay 102 connects a resistance bridge across the tip and ringconductors over leads T and R toward the central Office to hold the trunk. This bridge extends through resistance 105 and the second lower armature and front contact of rel y 102.
  • the attendants telephone equipment is also transferred to the leads T and R by the operation ofrelay 102 through the upper armature and front contact and lower inner armature and front'contact of this relay and upper and lower inner armaturesand back contacts of relay 106 and also 7 through the winding of relay 107.
  • Relay 108 prepares a circuit for'relay109 to be-hereinafter operated and establishes a ground connection for lead BG at its upper middle armature and front contact through upper middle
  • the T and B leads are tun armature and front contact of relay 1 and left hand contacts of key 100.
  • the ground connection over lead BG extends through the upper middle armature and front contact of relay 25 and upper winding of relay 11 to battery, causing this relay to operate.
  • delay 11 provides an additional break in the circuit for relay 16 and prepares a holding circuit for the trunk to be closed later and closes an obvious holding circuit for relay 17. It also connects its own locking circuit in parallel with the awaiting extension answer lamp AEA to ground on conductor 2-7 through the upper outer armature and back contact of re lay 21, and the second upper armature and front contact of relay 20.
  • Conductor 27 is now grounded from the circuit in the line finder LF" asthe cutoff relay has by this time operated to apply a ground to this conductor. It should be noted that on the operation of relays 10'? and 108 the ground was removed from lead TC.
  • the awaiting extension answer lamp AEA is lighted by this circuit to indicate that the attendant may now dial the desired private branch exchange subscriber in the regular manner.
  • Relay 107 which was held up in the meantime now releases and causes the energization of relay 109 over an obvious circuit before relay 108 releases as this relay is slow in releasing.
  • Relay 109 locks over a circuit completed through itsupper inner armature and front contact to lead H which is supplied with a ground connection through the third upper armature and front contact of relay 10, upper inner armature and back Contact of relay 20 from the sleeve conductor.
  • Relay 109 causes the operation of relay 106 over a circuit from battery, winding of relay 1'06, fourth upper armature and front contact of relay 109 to ground through contacts of key 110.
  • relay 106 When relay 106 operates it shortcircuits relay 107 and opens the locking circuit of relay 111. It also prepares a click bridge for the attendants telephone set and introduces av talking bridge through condensers 115 and 116 with battery feed for the private branch exchange subscriber through coil 113 and battery feed for the attendants telephone through relay 11 1. The circuits are now in talking condition for conversation between the attendant and the called subscriber, whose station is indicated at 3.
  • Relay 10 in releasing also closes the holding bridge controlled by relay 11 and trans fers the sleeve lead to the common ground circuit controlled by relay 13. It also opens the operating circuit for relay 7. Since the selector-connector SC has already removed its battery feed, relay 7 releases at once and connects battery to the ring conductor of the line through the winding of relay 5.
  • Relay 11 remains operated through the connection established at the second upper armature and back contact of relay 20 to ground supplied over lead 27 from the line circuit.
  • Relay 5 now operates over the private branch exchange subscribers loop and connects the second bridge across the trunk as hereinbefore described and also closes the operating circuit for relay 8'.
  • Relay 8 operates as hereinbefore described and disconnects ground and battery connection towards the called subscribers line through the winding of relay 5.
  • Relay 11 now releases as it was held by relay 20 and opens its holding bridge and extinguishes the awaiting extension answering lamp AEA.
  • Relay 5 being slow in releasing .maintains the holding bridge after relay 11 has released until relay 8 has operated, the purpose being to minimize the clicks through the talking conductors under these circumstances.
  • Relay 8 in operating also opens the circuits for relay 16 to disconnect it from the trunk.
  • the talking connection between the called private branch exchange subscriber and the subscriber at the central office over this trunk is now completed and "the attendants equipment excluded. This connection is held at the private branch exchange end by relay 18. i
  • relay 7 remains locked over the tip conductor to the winding of the pulsing relay in the selectorconncctor to prevent the pulsing relay and certain other relays in the selector-connector from releasing and disconnecting the ringing.
  • the subscribers switchbook opens the battery feed connection and cuts through to the station.
  • Relay 7 is thus released and'connects relay to the line.
  • Relay 5 energizes over the station loop and by operating relays 8 and 20, causes the awaiting extension answering lamp AEA to be extin- .-guished and the called station to be cut through to the central oflice as heretofore described.
  • the attendant After the attendant vhas dialed the desired station and found it busy, the attendant restores the trunk extension key 103 and thus transfers her telephone set back to the trunk leading to the central ofiice. The attendant then ascertains whether the central ofice calling subscriber decides to wait and if so, re-
  • relays 18, 15, 17, 8 and 6 are released in the order named.
  • the circuit of relay 16 is now connected across the conductors of the trunk through contacts of relays 8, 11, 5 and 15 as hereinbefore described.
  • Relay 16 is of such resistance as not to interfere with the giving of disconnect signalsat the central office and it operates over "the trunk and serves to hold relay l3operated.
  • the release of relay 8 splits the trunk and connects the private branch exchange subscribers line to battery through the winding of relay 5 as hereinbefore described.
  • relay 5 operates andconnects a bridge across the trunk as hereinbefore described.
  • Relay 6 does not operate as its primary winding is short-circuited through its lower inner armature and back contact.
  • Relay 18 now operates, causing the operation of relay 15.
  • Relay 15 closes a path through contacts of relay 5 to reoperate and lock relay 8.
  • Relay 8 in operating disconnects relay 5, opens the bridge through relay 16, and again connects the called private branch exchange subscribers line to the trunk, thereby holding relays 18 and 15 operated. It should be noted at this time that relay 17 does not reoperate and a ground connect-ion is therefore estab lished through back contacts of relays 6 and 17 and through front contacts of relay 8 to light the incoming trunk call lamp ITU.
  • Relay 109 operates relay 106 which supplies transmitter battery as hereinbefore described.
  • relays 25, 10 and 7 will operate and cause the release of relay 8 which will split the trunk circuit and connect the attendants set on the private branch subseribers line side.
  • Relay is now held by the attendants telephone and line circuit and supplies battery and ground to it over the T and R leads. WVhen the trunk extension key is operated as iereinbefore described, relay 20 releases and removes the battery and ground from the T and R leads, the attendants circuit now supplying transmitter battery to the called private branch exchange station and the attendants station.
  • the attendant now secures the information from the called subscriber that the call should be transferred and thereupon proceeds as follows: The attendant releases the line finder and the selectorconnector to the called subscribers line by operating release key 1 10 as hereinbefore described while the key is still operated.
  • the release key removes the ground from the leadRL, it being assumed that the lead IC has already been ungrounded bythe release of the trunk extension key 103 and the consequent release of relays 104 and 102.
  • the removal of ground from lead RL opens the holding circuit for the line finder and selector-connector, allowing them to release.
  • the removal of ground from lead RL also releases relays 109 and 106.
  • the local end of the trunk is now normal and is ready to be set up in the regular way when the attendant reoperates the trunk extension key 103 to establish a connection to another private branch exchange subscribers line.
  • the circuits are so arranged that the central oifice cannot flash the private branch exchange attendant and so that the momentary opening of the trunk by the central oiiice will not cause the incoming trunk call lamp to light falsely. Both of these functions are accomplished by means of relay 6. With the called private branch exchange subscribers receiver 05 the switchhook a momentary opening of the circuit at the central ofiice releases relays 18, 15, 17 and 8. Relay 6, however, holds on its primary winding in series with relay 5 which operates over the private branch exchange subscribers loop as soon as relay 8 releases. With relay 6 eperated, the incoming trunk call lamp is prevented from lighting under these circumstances.
  • the attendant may originate calls over a trunk in either direction.
  • key 100 is operated to the talking position and the out callkey 118 is operated.
  • the trunk circuit relays 10 and 25 operate as usual and relay 10 connects the ground for lead 00 and the operation of relay 11 opens the shunt around the resistance 141.
  • the operation of key 118 closes an obvious circuit for the operation of relay 119.
  • This relay in turn connects the lead OC from subscriber, the trunk extension key 103 is operated in the usual manner and the station dials as hereinbefore described. If the attendant desires to call a private branch exchange subscriber first and then extend a connection over the trunk, she proceeds in the usual manner to call the desired subscriber and then restores the trunk extension key 103 and operates the call ke Y 118 and proceeds as hereinbefore described. Having extended the connection in both directions, she
  • the attendants station may be used as a regular private branch exchange line and a private branch exchange line and number is assigned for this purpose. This is done by having leads 120 connected to a selector-connector and a line finder the same as the line of any private branch exchange subscriber. should be noted that these leads are bridged through a relay 122, over a contact of relay 101. If the attendants number is called the connection is established in the usual manner but instead of connecting with a trunk the connection at 120 is found. Relay 122 is operated as soon as this connection is established and this relay is locked to ground through its lower winding at the back contact of relay 108. Conductor BK is extended to the usual tone, ringing and alarm circuit to battery.
  • Relay 122 having been operated, closes a circuit for the extension call lamp 123 and this lamp in lighting notifies the attendant that a call is waiting.
  • the attendant answers this call by operating the extension switchboard key 128.
  • This key closes an obvious circuit for the operation of relay 101 which switches the attendants telephone ing of the lamp 123 when relay 122 is again connected across the line.
  • Relay 21 also disconnects the trunk busy lamp TB from the sleeve circuit and provides a ground for the sleeve circuit at its upper inner'armature and front contact. This relay also opens the locking circuit for relay 11 and closes a cir- ,cuit to cause the energization of relay 8. Relay 21 also opens the circuit extending from lead 32 and substitutes a direct ground for the circuit controlled by the ringing relay 23.
  • relay 11 is locked until the'call is picked up at the central oflice and relays 18, 15 and 13 are operated. If the call is abandoned before being picked up at the central ofii'ce, that is, if the relay 5' is released before relays 18 and 15 are operated, relay 11. is locked under control of relay 13. Under these circumstances, however, relay 15 has an operating path through the third upper armature and front contact of relay 11 and second upper armature and back con tact of relay 5 to ground at the lower armature and back contact of relay 13. clay 15 now operates to cause the operation of relay 13 which rel-eases relay 11. Relays'15 and 13 are then released and the circuit is restored to normal. o
  • relay 10 is connected in a circuit through contacts of relays 8 and 6 so that when these relays are operated during conversation, the attendant cannot monitor in on the connection.
  • the prlvate branch station is flashlng relay 6 releases and the attendant can then listen in on the connection as hereinbefore described.
  • a trunk a subscribers line, an attendants telephone equipment, means responsive to the-seizure of said trunk for signaling the attendant, means for associating said attendants telephone equipment with said trunk, means for removing the attendants equipment from the trunk and for establishing a connection between the attendants equipment and the subscribers line, means operable by the attendant for establishing a talking connection between said trunk and said subscribers line, and means responsive to the operation of said last mentioned means for rendering said telephone equipment ineffective and for preventing its reconnection to the line and to the trunk.
  • a subscribers line a trunk, an attendants telephone equipment, means for connecting the attendants telephone equipment to the trunk, means for associating the attendants telephone equipment with the subscribers line and signaling the subscriber, means for removing the attendants telephone equipment from the subscribers line, means responsive to said removal and to the subscriber answering the call for connecting the line to the trunk, and means operative under control of the subscriber of said line for simultaneously disconnecting the trunk from the subscribers line and vconnecting the attendants telephone set to the subscribers line.

Landscapes

  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Sub-Exchange Stations And Push- Button Telephones (AREA)

Description

July 19, 1932. 5; v. KING TELEPHONE SYSTEM Filed Jan. 1. 1930 2 Sheets-Sheet l .w m 1 It] i BY alum/G [IF [r AWO/PNE) 2 Sheets-Sheet LQQQRmKkY .Nuwt
Patented July 19, 1932 warren stares PATENT caries 'f GERALD V. KING, OF ST. ALBANS, NEW YCRK, ASSIGN'OR TO BELL TELEPHONE LABORA- TORIES, IN GORPC'RATED, OE NEW YORK, N. Y., A CORPORATION OF NEW YORK systems of this type means has also been prooffice,
TELEPEON E SYSTEM Application filed January 1, 1930. Serial No. 417,840.
This invention relates to telephone systems and particularly to private branch exchange systems.
An object of the invention is to insure greater secrecy in conversation between subscribers and to otherwise improve the service at private branch exchanges.
Heretofore telephone systems have been provided in which an operator assisting in establishinga connection between two parties is prevented from listening to the conversation between the parties by having her telephone set automatically excluded from the telephone connection when completed. In
vided whereby either subscriber may be manipulating his switchhook cause circuit changes to take place to permit the operator to again listen in by manually connecting her telephone set to the connection.
A feature of this invention is a system of this general character adapted for private branch exchange service in which the attendant may, after having established a connection from her telephone set to a private branch exchange subscriber, listen out by manipulation of keys and simultaneously automatically connect said private branch exchange subscribers line with a waiting trunk connection from a distant central he private branch exchange subthereby positively assured that the scriber is attendant has listened out on the connection and secrecy secured, as conversation between the private branch exchange subscriber and the party on the telephone connected at the distant end of the trunk is prevented until the attendant has listened out.
Another feature is a system of this kind in which the attendant, after having once listened out, cannot again by her own volition connect with the established connection between. the private branch exchange subscriber and the trunk.
Another feature is a system of this kind in which a private branch subscriber may by manipulating his 'switchhook cause circuit changes to take place in the trunk circuit to permit the attendant to again listen in on the connection by manipulating a key and in which, when the attendant actuates said key, the connection between the private branch exchange subscriber and the trunk is split and the trunk connection held, to provide secret service between the attendant and the private branch exchange subscriber.
This invention has been illustrated in the accompanying drawings in which Fig. 1 shows a trunk circuit incoming to a private branch exchange embodying the invention, while Fig. 2 shows an attendants telephone equipment at this exchange.
Descriptions will now be made of a call outgoing from a private branch exchange subscriber whose station is indicated at 1 through a line finder LF and selector-connector SC shown in diagrammatic form, the selectorconnector having access to the trunk circuit 2 leading to the central ofiice and an incoming call over the trunk 2 through a line finder LF and selector-connector SC to a private branch exchange subscribers station indi cated at 3. In this connection the attendants equipment shown in Fig. 2 is involved. Descriptions will also be made of other functions of these circuits such as transferring an incoming call from one private branch exchange subscribers station to another; calls originated by the attendant to a private branch exchange subscriber and to a subscriber at the central oflice. The functions of these circuits while so-called night service connections are made will also be described.
In regard to the functions of the circuits when a call is made from the subscriber at 1, the subscriber may in the usual manner connect with the trunk 2 through the line finder and selector-connector LF and SC respectively, which may be of any type well known in the art. When a connection has been established to trunk 12, a circuit will be completed for the operation of relay 5 over a loop closed through the selector-connector. This circuit may be traced from battery, winding of relay 5, lower innerarmature and back contact of relay 6, second upper armature and back contact of relay 7, lower outer armature and back contact of relay 8 through the ring terminal and over the loop at the subscribers station, back through the tip terminal of 10, or from ground at the upper inner armatrunk 2 upper outer armature and back contact of-relay 8, lower inner armature and backcontact of relay 10 to ground at the upper inner armature and back contact of relay 7. The operation. of relay 5 closes at its lower outer armature and front contact, a
connection to ground for the sleeve conductor through the selector-connector SC to hold this switch in operative condition as is well known in the art. This ground connection extends to the sleeve conductor from ground at the lower outer armature and front contact of relay 5 through the inner upper armature and back contact of relay 13; and the first upper make-before-break contacts of relay ture and front contact of relay 5 through the first upper make-before-break contacts of relay 10. Relay 5 also causes the operation of relay 11 over an obvious circuit through the upper winding of relay 11, andconnects a bridge across the tip and ring conductors of the trunk 2 as follows: From the tip conductor. of the trunk through the upper outer armature and back contact of relay 13, fourth lowerarmature and back contact of relay 11,,
upper make-before break contacts of relay 10, third upper armature and front contacts of relay 5 to the ring conductor of the trunk. Relay 11 in operating connects another bridge across the trunk conductors through its first and second inner upper arniatures andfront contacts in substitution of the bridge established by relay 5 through its third upper armature and front contact. Re-
lay 11 also connects the ring conductor of the trunk through resistance 1 1 to ground as follows: from the ring conductor, the second upper armature and front contact of relay 11,
the second upper armature and back contact of relay 10 through resistancel l to ground at the lower armature and back'contact of 15 when this latter relay15. Relay 11 also opens a circuit for relay 16 normally connected across the tip and ring conductors through its second lower 7 tact which will be controlled at the upper middle armature and front contact of relay relay operates. Relay 1? also causes the operation of relay 6 over an obvious circuit. Relay 6 in operating establishes a circuit for holding relay 18 operated at a subsequent operation of this latter relay. It also disconnects ground at its lower armature and back contact from a flashing circuit as will be hereinafter described.
The ground connection applied by relay 11 1 ating margin.
to the ring conductor of the trunk originates the call at the central ofiice whatever the type of central oiiice this trunk may be connected to the line circuit in which it terminates should be arranged with an open tip conductor to permit the ground connection through the resistance 14 to originate the call. When the call is answered by a central office operator or is picked up by a central ciiice switch, depending upon the type of oiiice to which this trunk is connected battery and ground connections are returned over the trunk to the private branch exchange. This causes the operation of relay 18 in'multiple with the originating ground circuit through resistance 14. This circuit may be traced as follows: from battery on the ring conductor of trunk 2, through the bridge closed by relay 11, winding of relay 18 to ground on the tip conductor. The non-inductive shunt winding ofrelay 18 is open at this time at the upper outer armature and front contact of relay 15 so as to give this relay a better oper- Relay 15 will now operate over an obvious circuit closed by the operation of relay 18. This relayopensa ringing bridge across the tip and ring conductors as will hereinafter be described and closes the above mentioned no11=inductive shunt for relay 18. Relay 15 also opens the call originating ground connection through resistance 1% .at its lower armature and back contact and causes the energization of relay 13 over an obvious circuit. Relay 8 is also operated over a circuit closed by relay 15 as follows: battery winding of relay 8, third. upper armature and back contact of relay 7, lower inner armature and front'contact of the relay 5, upper inner armature and front contact of relay 15 to a ground on the sleeve conductor furnished through the first upper 'makebefore-break contacts of relay 10 and the upper inner armature and front contact of relay 5 or in this case, due to the operation of relay 13, through the upper middle armature and front contact of relay 18. Relay 13in operating provides a locking circuit for itself to ground at the lower outer armature and front contact of relay 6'.
Relay Sin operating, closes a locking circuit for itself under control of relay 17. The locking circuit extends through the third upper armature and back contact of relayT, the'second lower armature and front contact of relay 8, andthe lower inner armature and front contact of relay 17 to ground on the sleeve conductor. Relay 8 in operating closes a circuit for the operation of relay 20 as follows: from batter'y,'winding of relay 20, third upper armature and front contact of relay 8, upper inner'armature and back contact of relay 21 to ground at the upper inner armature and front contact of lay 5. Relay 8 also in operating removes the ground and battery connections from'the gin.
calling subscribers loop; the ground connection is removed from the tip conductor at the upper outer armature and back contact and the battery connection through the windings of relays 6 and is removed from the ring conductor at the lower out-er armature and back contact. Relay 8 at these contacts also extends the tip and ring conductors from the calling subscriber to the outgoing trunk conductors 98 and 99 leading to the central office. Relay 6, however, is held operated through its upper winding, upper inner armature and front contact to ground at the second upper armature and front contact of relay 8. Relay 5 is slow in rel-easing and is therefore held operated for an instant so as to maintain the holding bridge across the tip and ring conductors of the trunk while relay 8 is in the act of operating. Relay is followed by the release of relay 11 and when both relays are returned to normal condition all holding bridges are removed from the trunk. The release of relay 11 closes a locking circuit for relay 1? as follows: from battery through the winding of relay 17, middle upper armature and back contact of relay 21, upper outer armature and fr nt contact of relay 17, middle upper armature and front contact of relay 15, hird up 5 er armature and back contact of relay 11 to ground at the armature and front Contact of follow the dial pulses as its windings are included in the tip conductor, but relay is slow in releasing so as to hold up during pulsing to maintain the circuit conditions in trunk 2 at the private branch exchange as hereinbefore described. When the desired subscriber has been rung and answers, the talking connection is extended through and conversation between the subscribers may be- At the end of the conversation if the private branch exchange subscriber hangs u) firstprelays 18, 15, 17, 8 and 6 will be released in the order named. Relay 16 will now be connected across the trunk conductors through. contacts of relays 8,11, 5 and 15. Relay 16 operates to hold the private branch exchange end of the trunk busy by maintain- Vingrelay 13operated over an obvious circuit. It should be observed that the resistance of relay 16 is high so as to cause the usual disconnect signal to be given at the central ofiice. lVhen the central office end of the trunk is released relays 16 and 13 in the trunk are restored and the switches SC and LF are released as the ground is removed from the sleeve conductor. If the central. office end of the trunk is first to be released, relays 18, 1.5, 17 and 8 are restored in succession and relay 5 is reoperated over the private branch exchange subscribefls loop be fore relay 6 has time to release as it is slow in releasing. Relay 5 continues to hold relay 13 operated until the private branch exchange subscriber hangs up the receiver. WVhen this occurs, relays 6, 5 and 13 are released and the switches SC and L? are restored to normal.
lVhen the trunk 2 is seized at the central office for calls incoming to the private branch exchange, relay 16 is operated as this relay is normally bridged across the tip and ring conductor of the trunk through contacts of relays 8, 11, 5 and 15. Relay 16 in operating closes a circuit for the lighting of a trunk busy lamp TB as follows: battery lamp TB, upper inner armature and back contact of relay 21, upper inner armature and back contact of relay 13, armature and front contact of relay 16 to ground. Relay 16 also makes the sleeve terminal of the selector connector SC and others in multiple therewith busy by applying a ground at its armature and front contact to the sleeve conductor, through the contact of relay 13 hereinbefore mentioned, fourth upper armature and make-beforebreak contact and third upper armature and back contact of relay 10, upper inner armature and back contact of relay 20 to the sleeve conductor. This trunk is thereby prevented from being seized by a calling private branch exchange subscriber through an idle selectorconnector.
Ringing current is now applied at the central office causing ringing relay 23 to operate. This relay is also bridged across the tip and ring conductor of the trunk in parallel with relay 16. Relay 23 in operating armatue and back contact of relay 21 to the conductor 32 which may pass to ground through the usual alarm circuit, not shown. Relay 17 closes a locking circuit for itself to ground at the middle upper armature and back contact of relay 13. It also causes the operation of relay 6 over an obvious circuit and the lighting of the incoming trunk call line lamp ITC over a circuit as follows from battery (not shown) over lead LB, lamp ITC, lower outer armature and front contact of relay 17 lower inner armature and back contact of relay 8, second upper armature and back contact of relay 11, second upper armature and back contact of relay 10, outer lower armature and back contact of relay 11 to ground at the lower armature and back contact of relay 15. establishes a ground connection for the sleeve conductor in substitution of the one established by relay 16. Relay 17 is slow to operate in order to prevent its operation on a momentary operation of relay 28, and thus prevent premature lighting of the lamp ITO a. on line surges that might occur for example when the trunk is seized at the central office. On the lighting of the incoming trunk call lamp ITC the attendant responds by operatthird lower armature and front :contact'of ing the key 100, associated with the trunk 2,
to the central or so-called talking position to permit the lower springs to close with their respective inner contacts. The operation of key 100 in this manner causes energizing circuits to be closed for the operation of relays 10 and 25. The, circuit for relay 10 extends frombattery, winding of this relay, upper outer armature and back contact ofrelay 6 through the right hand made contacts of key 10 to ground. The circuit for relay extends from battery, winding of this relayv over the same path to ground at key 100. The purpose of the operation of relay 25 will become apparent as the description proceeds. Relay 10 connects the listening conductors T and R from the attendants equipment to the central office end of the trunk at the upper outer armature and front contact andthe relay 10. This relay also causes the energization of relay 7 over allObVlOllS circuit. Re-
a lay 7 in energizing opens the circuit for relay i and second upper armatures and front contactsrespectively. The purposeof these connections will become apparent as the descrip-v tion proceeds. The incoming trunk call lamp ITC is extinguished by transferring" the ground connection for this lamp to conductor OC. 7 Relay 7 closes a holding'circuit for relay 17 atits upper outer armature and front contact and closes an obvious circuit for the operation of relay 1% at the lowerarmature and front contact. Relay13-in operating opens the original locking circuit for relay .1? ounds the original busy circuitfor the.
selector-connector although this circuitis at present not serving this purposebut merely holds the lamp TB lighted. The selectorconnector is held busy by othermeans at this time as will become apparent asth'e descrip- Relay 6 in operating tion proceeds. .A lockingcircuit is also closed for relay 13 through its inner upper armature and front contactunder control of relay 6. Relay 13 further opens the shunt path around relay 18 for purposes as will be hereinafter described. j
The attendants telephone equipment A is now connected to the tip and ring conductors of the trunk 2 towards the central office over the listening leads T and B through the contacts of relays 101, 102 and 10 an'dalso furnishes a tripping circuit for the ringing and an operating path for relay 18. Relays 18 and 15 now operate; the latter relay closes the non-inductive winding of relay 18, and opens the circuits for relay 16 and ringing relay 23. The attendant may nowdetermine the desired number and then operate the trunk extension key 103, thereby closing an obvious circuit for the operation of relay 10 1; This relay in operating closes a circuit to ground at key 110, for the lead 1C over its upper outer armature and front contacts and contacts of relays 108 and 109. This connection to ground also closes an obvious circuit for the operation of relay 111. Relay 104: also causes the energization of relay 102 over an obvious circuit. Relay 102 connects a resistance bridge across the tip and ringconductors over leads T and R toward the central Office to hold the trunk. This bridge extends through resistance 105 and the second lower armature and front contact of rel y 102. The attendants telephone equipment isalso transferred to the leads T and R by the operation ofrelay 102 through the upper armature and front contact and lower inner armature and front'contact of this relay and upper and lower inner armaturesand back contacts of relay 106 and also 7 through the winding of relay 107. Thus the attendants telephone equipment is connected to the trunk terminating terminals of line finder Ll while the holding bridge through resistance 105 isconnected across the tip and ring conductors of the trunk leading to the central office. The above mentioned ground connected to lead 10 extends as noted through the fourth lower armature and front contact of relay 10, second upperarmature relay in'turn causes the operation of relay 108, over an 'obvious'circuit: Relay 108 prepares a circuit for'relay109 to be-hereinafter operated and establishes a ground connection for lead BG at its upper middle armature and front contact through upper middle The T and B leads are tun armature and front contact of relay 1 and left hand contacts of key 100. The ground connection over lead BG extends through the upper middle armature and front contact of relay 25 and upper winding of relay 11 to battery, causing this relay to operate. delay 11 provides an additional break in the circuit for relay 16 and prepares a holding circuit for the trunk to be closed later and closes an obvious holding circuit for relay 17. It also connects its own locking circuit in parallel with the awaiting extension answer lamp AEA to ground on conductor 2-7 through the upper outer armature and back contact of re lay 21, and the second upper armature and front contact of relay 20. Conductor 27 is now grounded from the circuit in the line finder LF" asthe cutoff relay has by this time operated to apply a ground to this conductor. It should be noted that on the operation of relays 10'? and 108 the ground was removed from lead TC. The awaiting extension answer lamp AEA is lighted by this circuit to indicate that the attendant may now dial the desired private branch exchange subscriber in the regular manner.
When the attendant has finished dialing the desired number, she will receive either a busy or ringing tone. If a ringing tone is received in the usual manner from the selector-connector BC the attendant may wait until the called station answers. When this occurs, the battery feed from the selector-connector SC is opened and the station is connected to leads T and R. Relay 107 which was held up in the meantime now releases and causes the energization of relay 109 over an obvious circuit before relay 108 releases as this relay is slow in releasing. Relay 109 locks over a circuit completed through itsupper inner armature and front contact to lead H which is supplied with a ground connection through the third upper armature and front contact of relay 10, upper inner armature and back Contact of relay 20 from the sleeve conductor. Relay 109 causes the operation of relay 106 over a circuit from battery, winding of relay 1'06, fourth upper armature and front contact of relay 109 to ground through contacts of key 110. When relay 106 operates it shortcircuits relay 107 and opens the locking circuit of relay 111. It also prepares a click bridge for the attendants telephone set and introduces av talking bridge through condensers 115 and 116 with battery feed for the private branch exchange subscriber through coil 113 and battery feed for the attendants telephone through relay 11 1. The circuits are now in talking condition for conversation between the attendant and the called subscriber, whose station is indicated at 3.
lVhen the attendant has informed the called subscriber that an outside party is waiting, she disconnects her telephone set and establishes a connection to the waiting outside party by releasing the trunk extension key 103. The release of this key causes the release of relay 104:. Relay 104 in releasing causes the release of relay 102 and this relay transfers the attendants telephone set back to the conductors T and R towards the central oflice and opens the resistance bridge through resistance 105. The attend ants telephone set is thus connected across the trunk to the central oflice and the attendant may communicate with the central office subscriber to inform him that the desired private branch exchange subscribers line has been called. The key 100 is now released from the talking position and the atteendants telephone set is thereby disconnected entirely from the trunk. The release of key 100 causes the release of relays 25 and 10, the latter relay disconnecting the listening leads T and R and T and R as well as leads OC, I'C, RL and H from the trunk. Lead BG is disconnected by the release of key 100.
Relay 10 in releasing also closes the holding bridge controlled by relay 11 and trans fers the sleeve lead to the common ground circuit controlled by relay 13. It also opens the operating circuit for relay 7. Since the selector-connector SC has already removed its battery feed, relay 7 releases at once and connects battery to the ring conductor of the line through the winding of relay 5. Relay 11 remains operated through the connection established at the second upper armature and back contact of relay 20 to ground supplied over lead 27 from the line circuit. Relay 5 now operates over the private branch exchange subscribers loop and connects the second bridge across the trunk as hereinbefore described and also closes the operating circuit for relay 8'. Relay 8 operates as hereinbefore described and disconnects ground and battery connection towards the called subscribers line through the winding of relay 5. It also extends the connection from the called subscriber through to the trunk at the outer upper and lower armatures and front contacts and causes the operation of relay 20 over an obvious circuit. Relay 11 now releases as it was held by relay 20 and opens its holding bridge and extinguishes the awaiting extension answering lamp AEA. Relay 5 being slow in releasing .maintains the holding bridge after relay 11 has released until relay 8 has operated, the purpose being to minimize the clicks through the talking conductors under these circumstances. Relay 8 in operating, also opens the circuits for relay 16 to disconnect it from the trunk. The talking connection between the called private branch exchange subscriber and the subscriber at the central office over this trunk is now completed and "the attendants equipment excluded. This connection is held at the private branch exchange end by relay 18. i
If the attendant had listened out after dialing but before the private branch exchange swering lamp AEA would have remained lighted to remind the attendant that this was the case. Underthese conditions, relay 7 remains locked over the tip conductor to the winding of the pulsing relay in the selectorconncctor to prevent the pulsing relay and certain other relays in the selector-connector from releasing and disconnecting the ringing. 'When .the called private branch exchange subscriber answers, the subscribers switchbook opens the battery feed connection and cuts through to the station. Relay 7 is thus released and'connects relay to the line. Relay 5 energizes over the station loop and by operating relays 8 and 20, causes the awaiting extension answering lamp AEA to be extin- .-guished and the called station to be cut through to the central oflice as heretofore described.
After the attendant vhas dialed the desired station and found it busy, the attendant restores the trunk extension key 103 and thus transfers her telephone set back to the trunk leading to the central ofiice. The attendant then ascertains whether the central ofice calling subscriber decides to wait and if so, re-
leases the switches to the called private branch exchange subscriber by operating the release key- 110. "As" ground has already been removed from lead 10 by the restoration of the trunk extension key, the releasekey removes the ground from lead RL and therefore from the sleeve. The selector-connector SC and line finder LF are then restoredto normal. To prevent the trunk from releasing at the central office, the attendant now operates the'key 100 to its upper position, that is, to
the -so-called holding position. The circuit for relay 10 is thusopened and this relay in releasing disconnects as heretofore stated all ,the common leads from the trunk, and recloses the bridge circuit controlled by relay 7 11. Relays and 11 are held operated by the operation of key to this holding position. After an interval'the attendant may then again listen in by operating the. key 100 to; the talking position and redial the call in the same manner as hereinbefore described.
If theicalling subscriber does not desire "to wait the attendant'restores the key 100 to normal, releasing relays 10 and 25. Relay 11 is also released and lamp AEA is: extinguished. Relays 18, 15, 17 and 6 next release and relay '16 is again connected across the trunk. Relay 16 now operates over the central olfice trunk and holds relay'13 opera-ted,
and thereby keeps the private branch excomplished as'follows: When the switchhook of the called subscriber is first replaced, relays 18, 15, 17, 8 and 6 are released in the order named. The circuit of relay 16 is now connected across the conductors of the trunk through contacts of relays 8, 11, 5 and 15 as hereinbefore described. Relay 16 is of such resistance as not to interfere with the giving of disconnect signalsat the central office and it operates over "the trunk and serves to hold relay l3operated. The release of relay 8 splits the trunk and connects the private branch exchange subscribers line to battery through the winding of relay 5 as hereinbefore described. When the switchhook is again removed, relay 5 operates andconnects a bridge across the trunk as hereinbefore described. Relay 6 does not operate as its primary winding is short-circuited through its lower inner armature and back contact. Relay 18 now operates, causing the operation of relay 15. Relay 15 closes a path through contacts of relay 5 to reoperate and lock relay 8. Relay 8 in operating disconnects relay 5, opens the bridge through relay 16, and again connects the called private branch exchange subscribers line to the trunk, thereby holding relays 18 and 15 operated. It should be noted at this time that relay 17 does not reoperate and a ground connect-ion is therefore estab lished through back contacts of relays 6 and 17 and through front contacts of relay 8 to light the incoming trunk call lamp ITU.
The circuits in the trunk 2 are now in their original state except that relays 17 and 16 are not operated and the incoming trunk call lamp ITC is lighted. -These operations are now repeated to alternately light and extinguish lamp ITC and both the private branch exchange attendant and the central ofiice operator receive flashing signals. At the termination of the flashing, the lamp ITC lights steadily. The private branch exchange attendant now answers the call by listening in on the connection as hereinbefore described. When the attendant listens in she operates the key 100 to the talking position, operates the trunk extension key 103 and removes her receiver from the switchhook. Relay 107 operates from battery over the T and R conductors from the trunk causing vthe operation of relay 108. Relay 108 rei &
ing operates the relay 109 and releases the relay 108. Relay 109 in turn operates relay 106 which supplies transmitter battery as hereinbefore described.
It should be noted that in the trunk circuit relays 25, 10 and 7 will operate and cause the release of relay 8 which will split the trunk circuit and connect the attendants set on the private branch subseribers line side. Relay is now held by the attendants telephone and line circuit and supplies battery and ground to it over the T and R leads. WVhen the trunk extension key is operated as iereinbefore described, relay 20 releases and removes the battery and ground from the T and R leads, the attendants circuit now supplying transmitter battery to the called private branch exchange station and the attendants station. The attendant now secures the information from the called subscriber that the call should be transferred and thereupon proceeds as follows: The attendant releases the line finder and the selectorconnector to the called subscribers line by operating release key 1 10 as hereinbefore described while the key is still operated. The release key removes the ground from the leadRL, it being assumed that the lead IC has already been ungrounded bythe release of the trunk extension key 103 and the consequent release of relays 104 and 102. The removal of ground from lead RL opens the holding circuit for the line finder and selector-connector, allowing them to release. The removal of ground from lead RL also releases relays 109 and 106. The local end of the trunk is now normal and is ready to be set up in the regular way when the attendant reoperates the trunk extension key 103 to establish a connection to another private branch exchange subscribers line.
The circuits are so arranged that the central oifice cannot flash the private branch exchange attendant and so that the momentary opening of the trunk by the central oiiice will not cause the incoming trunk call lamp to light falsely. Both of these functions are accomplished by means of relay 6. With the called private branch exchange subscribers receiver 05 the switchhook a momentary opening of the circuit at the central ofiice releases relays 18, 15, 17 and 8. Relay 6, however, holds on its primary winding in series with relay 5 which operates over the private branch exchange subscribers loop as soon as relay 8 releases. With relay 6 eperated, the incoming trunk call lamp is prevented from lighting under these circumstances.
The attendant may originate calls over a trunk in either direction. In originating a call to the central oflice, key 100 is operated to the talking position and the out callkey 118 is operated. The trunk circuit relays 10 and 25 operate as usual and relay 10 connects the ground for lead 00 and the operation of relay 11 opens the shunt around the resistance 141. The operation of key 118 closes an obvious circuit for the operation of relay 119.
This relay in turn connects the lead OC from subscriber, the trunk extension key 103 is operated in the usual manner and the station dials as hereinbefore described. If the attendant desires to call a private branch exchange subscriber first and then extend a connection over the trunk, she proceeds in the usual manner to call the desired subscriber and then restores the trunk extension key 103 and operates the call ke Y 118 and proceeds as hereinbefore described. Having extended the connection in both directions, she
listens out and the called stations are con nected together.
.lhese circuits are so arranged that the attendants station may be used as a regular private branch exchange line and a private branch exchange line and number is assigned for this purpose. This is done by having leads 120 connected to a selector-connector and a line finder the same as the line of any private branch exchange subscriber. should be noted that these leads are bridged through a relay 122, over a contact of relay 101. If the attendants number is called the connection is established in the usual manner but instead of connecting with a trunk the connection at 120 is found. Relay 122 is operated as soon as this connection is established and this relay is locked to ground through its lower winding at the back contact of relay 108. Conductor BK is extended to the usual tone, ringing and alarm circuit to battery. Relay 122 having been operated, closes a circuit for the extension call lamp 123 and this lamp in lighting notifies the attendant that a call is waiting. The attendant answers this call by operating the extension switchboard key 128. This key closes an obvious circuit for the operation of relay 101 which switches the attendants telephone ing of the lamp 123 when relay 122 is again connected across the line.
These circuits are also so arranged that night calls may be made to or from a specially'assign-ed night service station, If it is desired to prepare a connection for this purpose, the attendant dials the number at this night position in the usual manner and operates the night connection key 125 while would otherwise continue until the call is answered at the night station. Relay 21 also disconnects the trunk busy lamp TB from the sleeve circuit and provides a ground for the sleeve circuit at its upper inner'armature and front contact. This relay also opens the locking circuit for relay 11 and closes a cir- ,cuit to cause the energization of relay 8. Relay 21 also opens the circuit extending from lead 32 and substitutes a direct ground for the circuit controlled by the ringing relay 23. The attendant then listens out in the usual manner leaving the key 125 operated. All relays in the trunk release except relay 21 and the connection is now ready for night calls. I When the night station originates an outgoing night call the relay 5 operates over the station loop, and operates relay 11. From this point on the establishing of an outgo- 'ing connection is the same as hereinbefore described for an ordinary private branch exchange subscriber. When calls are incoming over the trunk to the night position, relay 23 operates from ringing current and causes the operation of relay 17 This latter relay causes the operation of relays 6 and 8. Relay 18 is short-circuited at this time, so as to prevent it from disturbing the call by operating relay 15. Relay 8 cuts through the connection and extends ringing tothe night station. l/Vhen the call is answered, ringing is tripped either through the station loop or through the contacts of relay 5, depending on whether the answer occurs during ringing or silent intervals. From this point on, the operation is the same as for an ordinary incoming call except that the trunk lamp TB is cut olf as hereinb'efore explained.
If an ordinary out call is abandoned it should be noted that relay 11 is locked until the'call is picked up at the central oflice and relays 18, 15 and 13 are operated. If the call is abandoned before being picked up at the central ofii'ce, that is, if the relay 5' is released before relays 18 and 15 are operated, relay 11. is locked under control of relay 13. Under these circumstances, however, relay 15 has an operating path through the third upper armature and front contact of relay 11 and second upper armature and back con tact of relay 5 to ground at the lower armature and back contact of relay 13. clay 15 now operates to cause the operation of relay 13 which rel-eases relay 11. Relays'15 and 13 are then released and the circuit is restored to normal. o
I It'should be noted that the winding of relay 10 is connected in a circuit through contacts of relays 8 and 6 so that when these relays are operated during conversation, the attendant cannot monitor in on the connection. W hen the prlvate branch station is flashlng relay 6 releases and the attendant can then listen in on the connection as hereinbefore described.
Although the invention has only been shown applied to a single circuit arrangement, it should be understoodthat it could readily be applied to a number of other systems without departing from the spirit thereof.
What is claimed is:
1. In a telephone system, two lines, an attendants equipment, means for establishing a talking connection between the. attendants equipment and one ofsaid lines, means operable by said attendant for establishing a talking connection between said lines, and means responsive to the operation of said last mentioned means for rendering said. equipment ineffective and for preventing its reconnection to said line.
2. In a telephone system, two lines, an attendants equipment, means for establishing a talking connection between the attendants equipment and either of said lines, means operable by said attendant for establishing a talking connection between said lines, and means responsive to the operation of said last mentioned means for rendering said equipment ineffective and for preventing its reconnection to either of said lines.
3. In a telephone system, twolines, anattendants equipment, means for establishing a talking connection between the attendants equipment and either line, means operable by said attendant for. establishing a connec- 1 tion between said lines,means responsive to the operation of said last means for rendering said equipment ineffective and for preventing its reconnection to either line. and means controlled by the subscriber of one of said lines for rendering said equipment effective.
4:. In a telephone system, two lines, an attendants equipment, means for establishing a talking connection between the attendants equipment and either line, means operable by said attendant forestablishing a connectionbetween said lines,-means responsive to the'operation of said last means for rendering said equipment ineifective and for preventing its reconnection to either line,
means controlled by the subscriber on one of said lines for rendering said equipment effective, and means thereafter operable by the attendant for splitting the connection between two lines and connecting her equipment with the said one line. 1
5. In a telephone system, a trunk, a subscribers line, an attendants telephone equipment, means responsive to the-seizure of said trunk for signaling the attendant, means for associating said attendants telephone equipment with said trunk, means for removing the attendants equipment from the trunk and for establishing a connection between the attendants equipment and the subscribers line, means operable by the attendant for establishing a talking connection between said trunk and said subscribers line, and means responsive to the operation of said last mentioned means for rendering said telephone equipment ineffective and for preventing its reconnection to the line and to the trunk.
6. In a telephone system, a subscribers line, a trunk, an attendants telephone equipment, means for connecting the attendants telephone equipment to the trunk, means for associating the attendants telephone equipment with the subscribers line and signaling the subscriber, means for removing the attendants telephone equipment from the subscribers line, means responsive to said removal and to the subscriber answering the call for connecting the line to the trunk, and means operative under control of the subscriber of said line for simultaneously disconnecting the trunk from the subscribers line and vconnecting the attendants telephone set to the subscribers line.
7. In a telephone system, two lines, an attendants equipment, means for establishing a talking connection between the attendants equipment and one of said lines, means operable by said attendant for establishing a talking connection between said lines, means responsive to the operation of said last mentioned means for rendering said equipment ineffective and for preventing its reconnection to said line, and means operative under the control of the subscriber of said one line and the attendant for splitting the talking connection between said lines and for reestablishing a talking connection between the attendants equipment and said one line.
8. In a telephone system, two lines, an attendants equipment, means for establishing a talking connection between the attendants equipment and either line, means operable by said attendant for establishing a connection between said lines, means responsive to the operation of said last mentioned means for rendering said equipment inefl'ective and for preventing its reconnection to either line, means controlled by the subscriber of one of said lines and by the attendant for splitting the connection between the two lines, for connecting the attendants equipment with one of said lines and for establishing a bridge across the tip and ring conductors of the other line.
9. In a telephone system, two lines, an attendants equipment, means for establishing a talking connection between the attendants equipment and either line, means operable by said attendant for establishing a connection between said lines, means responsive to the operation of said last mentioned means for rendering said equipment ineffective and for preventing its reconnection to either line, means controlled by the subscriber of one of said lines and by the attendant for splitting the connection between the two lines, for connecting the attendants equipment with one of said lines and for establishing a bridge across the tip and ring conductors of the other line, and means controllable by the attendant for reestablishing a talking connection between said lines, for rendering said attendants equipment ineffective and for preventing its reconnection to said one line without the aid of the subscriber of said one line. In witness whereof, I hereunto subscribe my name this 30th day of December, 1929.
GERALD V. KING.
US417840A 1930-01-01 1930-01-01 Telephone system Expired - Lifetime US1868326A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US417840A US1868326A (en) 1930-01-01 1930-01-01 Telephone system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US417840A US1868326A (en) 1930-01-01 1930-01-01 Telephone system

Publications (1)

Publication Number Publication Date
US1868326A true US1868326A (en) 1932-07-19

Family

ID=23655590

Family Applications (1)

Application Number Title Priority Date Filing Date
US417840A Expired - Lifetime US1868326A (en) 1930-01-01 1930-01-01 Telephone system

Country Status (1)

Country Link
US (1) US1868326A (en)

Similar Documents

Publication Publication Date Title
US2335481A (en) Telephone system
US2164731A (en) Telephone system
US2669606A (en) Automatic toll trunking system
US1868326A (en) Telephone system
US1925681A (en) Telephone system
US2379456A (en) Telephone system
US2976368A (en) Incoming trunk circuit for in-dialing service
US2572104A (en) Private branch exchange telephone system
US2339669A (en) Communication system
US2855463A (en) Telephone system involving the dialing of extension stations at a cordless p. b. x
US3041410A (en) Delay busy circuit
US2842622A (en) Carrier adapter circuit
US1763161A (en) Telephone system
US2304220A (en) Telephone system
US2142658A (en) Telephone system
US1882753A (en) Telephone system
US2042828A (en) Telephone system
US1575334A (en) Telephone system
US1968420A (en) Telephone system
US1832263A (en) Telephone system
US1990437A (en) Telephone system
US1812641A (en) Remote control magneto telephone system
US2667539A (en) Automatic telephone connector circuit
US2702832A (en) Telephone system
US1221030A (en) Telephone system.