US1515674A - Telephone system - Google Patents

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US1515674A
US1515674A US432678A US43267820A US1515674A US 1515674 A US1515674 A US 1515674A US 432678 A US432678 A US 432678A US 43267820 A US43267820 A US 43267820A US 1515674 A US1515674 A US 1515674A
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relay
line
contact
circuit
ground
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US432678A
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Charles L Goodrum
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AT&T Corp
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Western Electric Co Inc
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q3/00Selecting arrangements
    • H04Q3/0008Selecting arrangements using relay selectors in the switching stages

Definitions

  • This invention relates to improvements in telephone systems and has particular reference ton-a private branch exchange system.
  • connectionato-the central ofiice being then ingline'toward the central oilice is: efi'ected i by mechanism common to 'a numbenof said circuits and the connection of the calling line to a central office trunk thereafter controlled by; mechanism individual to said calling line;
  • the invention comprises the usual line and cut-off relaysfor each subscribers line of the system.
  • a calling line is identified by two electrically dis tin-guished circuits, one each in the principal direction of a two-coordinate other' subscriber within the exchange, the
  • calling subscriber manipulates a variably operable impulse sender in response to which twoconductors are successivelyidentified,-
  • each conductor being in theprincipal directionof a two-coordinate system.
  • the identisystem Through these circuits and acommon'start ficationof these conductors,-by the mech anism shown in F igure3, thenresults in the selection of the called line and the connection thereof withthe linlrcircuit taken for use and the calling line.
  • the calling: subscribersline is again identified by the line relay and an idle link circuit is again seizedover the-common start conductor;
  • the central oflice trunks isoperated w effect the release of the link: circuit taken for use and to transfer said startconductor to an idle central oflice trunk,
  • the calling line is again identified by the co-operation of its line and cut-off relays so thatthe two" circuits first mentioned are again ejlectrica-llydistingui'shed.
  • the line relay 1 Upon the initiation of the call on line 22, the line relay 1 individual thereto is energized. Through its left-hand armature, the line relay places a ground potential on two circuits, one each in the principal direction of a two-coordinate system. These circuits are contained in groups, the first group 2 being associated with the tens designation of the calling lines and the second group 3 being associated with the units designation of said lines. Thus, all of the line relays associated with lines 20 to 29 inclusive, upon actuating their armatures, will ground the circuit 4 in group 2. Also, line 22 will ground the circuit 5 in group 3; line 23 will ground the circuit 6 in group 3; line 24 will ground the circuit 7 in group 3 and so on.
  • line relay 1 causes the extension of ground through the right-hand contact thereof over the common start conductor 9, the left-hand normal contacts of relays 10 to 11, the left-hand normal contact of relay 12 and from thence through the windings of relay 13 and slow-to-release relay 14 to grounded battery.
  • Relays 13 and 14 energize and upon the energization of the former relay, the ground on the circuit4in group 2 is extended through the left-hand contact of relay .13 corresponding to the circuit 4, the winding of relay 15 and the winding of relay 12 to grounded battery.
  • the cir nit 5 of group 3 is like- Wise grounded through the inner left-hand contact of relay 1, the right-hand contact of relay 13 corresponding to circuit and the winding of relays 16 and 12 to grounded battery.
  • the relays 15 and 16 energize and lock through their leftand right contacts, respectively, to ground at the contact of relay 14.
  • Relay 12 is energized in series With the relays 15 and 16, but before said relay 12 can close its alternate contact, a circuit is established for cut-off relay 17 individual to the calling line, which circuit is traceable from grounded battery, through the winding of relay 17, the corresponding contact of relay 15, the inner-most left-hand contact of relay 16 and the contact of relay 14 to ground.
  • Relay 17 energizes to disconnect the line relay from the calling line. and thereby causes the release thereof to disconnect ground from the circuits 4 and 5.
  • the circuit for relays 13 and 14 is opened and relay 13 immediately releases.
  • Relay 14 being slow to release, does' not retract its armature until ground is returned over the third conductor 18 of the link or trunk circuit 19 which has been selected. Relays 15 and 16, therefore, remain locked up and relay 17 energized to ground at relay 14. It is now apparent that the calling line 22 is extended through contacts of relays 15 and 16 to the link or trunk circuit 19.
  • each link circuit is a mechanism indicated by a rectangle 20 and shown in detail in Fig. 3.
  • the line relay 21 thereat becomes energized to establish an obvious circuit for the slow-to-release relay 22.
  • the armature of relay 14 is now fully retracted and relays 12, 15, 16 and 17 remain energized.
  • relay 12 extends the common conductor 9 through to relays associated with another link or trunk circuit whereby this circuit will be seized upon the initiation of another call.
  • the connection is now in a stable condition and awaits the operation of the impulse sending device at the calling subscribers substation.
  • Relay 22 does not open its contacts and therefore upon the release of relay 1, a circuit is established from ground through the normal contact of relay 21, the inner right-hand contact of relay 22, the left-hand normal contact of relay 24 to the junction point 25 and from thence in one direction through the winding of slow-to-release relay 26, the outer right-hand contact of relay 27 and the middle right-hand normal contact of relay 28 to grounded battery.
  • Relay 26 energizes and in so doing establishes an energizing circuit from ground through its right-hand alternate contact, winding of slow-to-release relay 29 and from thence over the energizing circuit of relay 26.
  • the ground at the junction point 25 is also extended through the right-hand normal contact of upper or units counting relay 30 and the winding of the lower or tens counting relay 31 to grounded battery.
  • the latter relay energizes in this cir cuit and through its right-hand contact closes a circuit for th upper counting relay. 30 extending to ground atthe inner left-hand alternate contact of relay 29.
  • Relay 30, is shunted by the ground extending from the junction point to the other te-rn'iinal of said relay.
  • the opening of the normal contact of relay 21 opens the energizing circuit for relay 26 which, after an interval releases to effect I the deenergization of relay 29.
  • a circuit is established from ground through thenormal contact of re lay 26, the right-hand contact of relay 29, the left-hand normal contact of relay 34, the conductor 38 and "from thence through the left-hand contacts of the lower counting relays to the conductor 32.
  • the ground on this conductor is extended to relay (Fig. 1), the other terminal of said relay being connected to battery.
  • Thisrelay now energizes and looks through its right-hand contact to the conductor .36 which is grounded through the left-hand contact of relay 22 to the conductor 23 upon the initial energization of relay 22.
  • relay 34 does not energize at this time.
  • relay 34 Upon the opening of the right-hand contact of relay 29, the ground connected to the first mentioned terminal of relay 34; is removed andthereupon relay 34: ener- .es in series with relay 37. the latter relay being momentarily held energized in this circuit.
  • relay 8s is through said right-hand contact, the ,resistance 38, the outer right-hand contact of relay 27 and the middle right-hand normal contact of relay 28 to grounded battery.
  • the relehs ofrelay 29 also removes ground from the inner left hand alternate contact thereof and thereupon counting relaysiltl and 8i restore.
  • the ground extended from the right-hand normal contact of relay 26 also again causes the enei'gization of relay 237 to extend said ground through the outer left-hand alternate contact of relay 34 to one terminal of the relay 2%, the other terminal oi which is connected to the conductor 36 to thereby shunt the latter re of relay 241.
  • the etlect 01'' the complete release of relay 29 is here described, it is to be noted that before this takes place, a tcstot the called line is made;
  • relay 21 Upon. the replacing ot the receiver upon it switchhook at the calling substation in response to this busy tone, relay 21 releases to open the energizing circuit "for relay 22 which, after an interval, opens its contacts.
  • the ground on conductor is thereupon .41) disconnected from the conductor 36 to cause he release of relays 28, 35 and 1 1 which have been previously locked to this conductor.
  • the deenergization of relay 22 also disconnects ground on conductor 23 from the conductor 18, whereupon relays 12, 15, 16 and 1? release. normal condition.
  • relay 29 Assuming that the called line is idle, no ground will be found upon the conductor 45 to energize relay 28. Therefore, when relay 29 is fully released, ground is extended from the outer right-hand normal contact of relay 29, the conductor 15, the inner righthand contact of relay 4: 1, a contact of relay 35, and the winding of cut-oil relay 16 of the called subscribers line to grounded battery.
  • the energization of relay 46 in this circuit places a busy potential on the called subscribe-rs line in a manner well known in the art and prevents seizure thereof by any other line.
  • relay 27 prior to the energization of relay 18, relay 27 is shunted by current from the conductor 36 connected to both of the terminals of the winding of said relay but, upon the operation of relay 41.8, this current is removed from one of the terminals of: relay 2? which thereupon opcrates over a circuit traceable from grounded battery through the resistance 50 and the winding of relay 27 to ground on the con ductor 36.
  • the operation of relay27 disconnects battery from one terminal of the relay 4? which thereupon releases.
  • This disconnection of battery at the middle righthand contact of relay 28 from the outer right-hand contactof relay 27 also opens the locking circuit for relays 2 1 and 34; which thereupon release.
  • the energization of relay 27 extends the link 01' trunk circuit 19 through the left-hand alternate contacts of said relays to the called subscribers line and conversation may now proceed between the subscribers.
  • the calling subscriber by replacing his receiver upon its switchhook, effects the release of the relays as previously described in addition to relays 27 and e16 as will be understood by reference. to the previous description.
  • relay 21 vibrates its armature and upon each successive closure of the normal contact of said relay, a pair of the count-ingrelays is energized.
  • counting relays 51 and41 are energized and upon the closure ofthe lefthand alternate contact of relay 51, a circuit is established for the transfer relay 1O from grounded battery through the winding of said relay, the conductor 52, the left-hand alternate contact-of counting relay 51, the left-hand normal contact of relay 34, the right-hand contact of relay 29 and the righthand normal contact of relay 26 to ground, it being understood that relays 26 and 29 function in the same manner as previously described.
  • the energization of relay 1O first removes ground from the right-hand contact thereof and in so doing causes the release of relays 12, 15, 16 and 17 which, at this time, are being held up by ground on conductor 18 which is joined to the conductor 23 through the outer right-hand contact of relay 22.
  • cut-01f relay 17 again connects the line relay 1 to the subscribers loop and this latter relay again operates to again identify the calling line and connect ground to the conductor 9 which is now extended through the left-hand alternate contact of relay 10 to relay mechanism associated with the first idle trunk leading to the central office.
  • this trunk is idle, the ground on conductor 9 is extended through the normal contact of relay 53 and the windings of relays 54 and 55 to grounded battery to energize these relays.
  • relay 54 establishes a circuit extending from grounded battery through the winding of relay 53, the winding of relay 56, the outermost right-hand contact of relay 54 and from thence over conductor 5 to ground through the inner left-hand contact of line relay 1. Another circuit is established in series with the re lay 53 through the winding of relay 57, the next to the outermost left-hand contact of relay 54, the conductor 4 and the outer lefthand contact of relay 1 to ground. Relays 53, 56 and 57 energize and lock temporarily to ground at the contact of relay 55. The
  • relay 53 opens the circuits for relays 54 and 55 but relay 55 does not release until ground is returned over the third conductor 58 of the central office trunk.
  • relays 56 and 57 energize, a circuit is again established for cut-oif relay 17 extending through corresponding contacts of relays 57 and 56 to ground at. the contactof relay55, The energization of relay 17 again disconnects the line relay 1 from the subscribers loop to remove from the conductors 4, 5 and9.
  • relays 56 and 57 extends the calling subscribers line through contacts of said relays to the talking conductors of the central office trunk circuit and immediately upon said extension of the line, relays at the central ofiice, well known in the art, are operated to ground the third conductor 58 so that upon the release of relay 55 after an interval, the locking ground at the contact thereof,.for relays 56, 57 and 17 is transferred to the conductor 58.
  • a subscribers line a line relay therefor, a link circuit, a trunk, means controlled by said line relay for connecting said line to said link circuit, a subscriber controlled switching device for disabling said connection, and means thereupon controlled by said line relay for connecting said line to said trunk.
  • a subscribers line In a telephone system, a subscribers line, a line relay therefor, a link circuit, a trunk, means cont-rolled by said line relay for connecting said line to said link circuit, a subscriber controlled switching device for disabling said connection, and means there upon controlled by said line relay through said switching device for connecting said line to said trunk.
  • a subscribers line having permanently paired priground mary and secondary contacts for extending said line to said circuits, a line relay and a cut-off relay individual to said line, means under control of said line relay for actuating one of said devices to extend said line to said link circuit means responsive to said extension of said line for operating said cut-oii relay to cut off said line relay means associated With said link circuit for disconnectingsaid'link circuit from said line and causing the deenergization of said cut-off relay and means under control of said line relay and said last means for actuating another of said devices to extend said line to said trunk circuit.
  • a subscribers said line to said circuits, a line relay and a cut-elf relay individual to said line, a starter Wire circuit under control of said line relay said line and causingtlie deenergization of said cut-ofi relay, and a second starter Wire circuit under control of said line relay and said last relay for actuating another of said devices to extend said line to said trunk circuit.

Description

Nov. 18, 1924. 1,515 I c. 1.. GQODRUM TELEPHONE SYSTEM Filed De c. 23. 1920 s Sheets-Sheet /r/ Vemor; Char/35L. Good/am Nov. 18, 1924. 1,515,674
C. L. GOODRUM TELEPHONE SYSTEM Filed Dec. 23 1920 3 Sheets-Sheet. 2
M vemor: Char/es G'oodrum by 5R W Airy Nov. 18, 1924. 1,515,674
C. L. GOODRUM TELEPHONE SYSTEM Filed Dec. 23. 1920 3 Sheets-Sheet 3 //1 Vefl for: Char/es L. Good/um ?atented Nov. 18, 1924.
CHARLES L. GOODRUM on NEW YORK, N; Y., ASSIGNOR T0 WESTERNELECTRIC 00M P'ANY, INCORPORATED, on NEW YORK, N. Y., A CORPORATION on NEW YORK.
TELEPHONE SYSTEM.
Application filed December 23, 1820. Serial No, 432,678;
T 0 all whom it may concern: I
Be it known that 1, CHARLES L. GoonRUM, a citizen of the United States, residing at New York in the county of New York, State of New York, have invented certain new anduseful Improvements in Telephone Systems of. which the following is a full, clear, concise, and exact description.
This invention relates to improvements in telephone systems and has particular reference ton-a private branch exchange system.
Heretofore, systems have been designed which employed machine switching means and wherein connections are established betweensubscribers'within the exchange and the central officeover trunk or link CIICllltS whiclr are only temporarily employed in establishing connections, and thereafter released for use in completing other calls, the
connectionato-the central ofiice being then ingline'toward the central oilice, is: efi'ected i by mechanism common to 'a numbenof said circuits and the connection of the calling line to a central office trunk thereafter controlled by; mechanism individual to said calling line;
Other objects will appear in the course of the following description when taken in connection with the accompanying drawings wherein Figures 1, 2 and 3', illustratediagrammatically the system embodying the inventive idea involved.
Briefly stat-ed, the invention comprises the usual line and cut-off relaysfor each subscribers line of the system.- A calling line is identified by two electrically dis tin-guished circuits, one each in the principal direction of a two-coordinate other' subscriber within the exchange, the
calling subscriber manipulates a variably operable impulse sender in response to which twoconductors are successivelyidentified,-
each conductor being in theprincipal directionof a two-coordinate system. The identisystem. Through these circuits and acommon'start ficationof these conductors,-by the mech anism shown in F igure3, thenresults in the selection of the called line and the connection thereof withthe linlrcircuit taken for use and the calling line.
When making acall tothe central ofiice, the calling: subscribersline is again identified by the line relay and an idle link circuit is again seizedover the-common start conductor; By transmitting.- the proper number of impulses over the line circuitfrom the calling substation, aswitching'device, common to the linkortrunk circuitand the central oflice trunks isoperated w effect the release of the link: circuit taken for use and to transfer said startconductor to an idle central oflice trunk, Upon'the operation of the switching deviceand consequent release of the link circuit, the calling line is again identified by the co-operation of its line and cut-off relays so thatthe two" circuits first mentioned are again ejlectrica-llydistingui'shed. The common start con= ductor is now extended, by' means of said switching device, to mechanism associated with the first idle central office trunk e1icountered and this mechanism thereupon operates to connect the calling line directly to the central office trunk.
The release of the connections, in each instanceis under the control of the calling, subscriber. When the receiver is-repl'aced, release of all the selected mechanisminvolvedin' the connection will be practically instantaneous since it involves. only the re-' turn to normal of mechanism having no" movement except that froman actuated to a normal position.
Itis believed that the invention will now be fully understood from the following detailed description of the various operations. y
In: order to facilitate the description ofthe invention only a: few of the incoming lines, andoutgoing trunks'are shown.- Let it be assumed that the subscribers lines shownriir Fig; 1 belong. to those groups'of lines numbered-Q0 to 29 inclusive and 10 to 19 inclusive. Six ofthese' lineshave been shown, namely, lines"22"to 24 inclusive of" the first group and '12 to -l l'inclusive of the secon dgroup: For=the= purpose of descripti'on, let it be assumedthat linef22 o-f'tli'e' first group desiresa"connection mime 12 0f the second group. 7
Upon the initiation of the call on line 22, the line relay 1 individual thereto is energized. Through its left-hand armature, the line relay places a ground potential on two circuits, one each in the principal direction of a two-coordinate system. These circuits are contained in groups, the first group 2 being associated with the tens designation of the calling lines and the second group 3 being associated with the units designation of said lines. Thus, all of the line relays associated with lines 20 to 29 inclusive, upon actuating their armatures, will ground the circuit 4 in group 2. Also, line 22 will ground the circuit 5 in group 3; line 23 will ground the circuit 6 in group 3; line 24 will ground the circuit 7 in group 3 and so on. When calls are initiated in the group 10 to 19 inclusive, allot the: line relays individual to the several lines of this group will ground the circuit 8 in group 2 and each line relay Will ground a different circuit in the group 3 as just described in connection with the line relays of the group of lines 20 to 29 inclusive. In this manner the calling line is identified by the grounded circuits.
The energization of line relay 1 causes the extension of ground through the right-hand contact thereof over the common start conductor 9, the left-hand normal contacts of relays 10 to 11, the left-hand normal contact of relay 12 and from thence through the windings of relay 13 and slow-to-release relay 14 to grounded battery. Relays 13 and 14 energize and upon the energization of the former relay, the ground on the circuit4in group 2 is extended through the left-hand contact of relay .13 corresponding to the circuit 4, the winding of relay 15 and the winding of relay 12 to grounded battery. The cir nit 5 of group 3 is like- Wise grounded through the inner left-hand contact of relay 1, the right-hand contact of relay 13 corresponding to circuit and the winding of relays 16 and 12 to grounded battery. The relays 15 and 16 energize and lock through their leftand right contacts, respectively, to ground at the contact of relay 14. Relay 12 is energized in series With the relays 15 and 16, but before said relay 12 can close its alternate contact, a circuit is established for cut-off relay 17 individual to the calling line, which circuit is traceable from grounded battery, through the winding of relay 17, the corresponding contact of relay 15, the inner-most left-hand contact of relay 16 and the contact of relay 14 to ground. Relay 17 energizes to disconnect the line relay from the calling line. and thereby causes the release thereof to disconnect ground from the circuits 4 and 5. Upon the energization of relay 12 the circuit for relays 13 and 14 is opened and relay 13 immediately releases. Relay 14, being slow to release, does' not retract its armature until ground is returned over the third conductor 18 of the link or trunk circuit 19 which has been selected. Relays 15 and 16, therefore, remain locked up and relay 17 energized to ground at relay 14. It is now apparent that the calling line 22 is extended through contacts of relays 15 and 16 to the link or trunk circuit 19.
.Associated with each link circuit, as shown in Fig. 1, is a mechanism indicated by a rectangle 20 and shown in detail in Fig. 3. When the talking conductors of line 22 have been extended over the link 19 to the mechanism of Fig. 3, the line relay 21 thereat becomes energized to establish an obvious circuit for the slow-to-release relay 22. Upon the energization of the latter relay ground is extended from the right-hand contact of relay 10 over the conductor 23, the outer right=hand contact of relay 22 to the conductor 18-so that this ground replaces that at the relay 14 which has maintained relays 15, 16 and 17 in an. energized condition. The armature of relay 14 is now fully retracted and relays 12, 15, 16 and 17 remain energized. Through its alternate contact, relay 12 extends the common conductor 9 through to relays associated with another link or trunk circuit whereby this circuit will be seized upon the initiation of another call. The connection is now in a stable condition and awaits the operation of the impulse sending device at the calling subscribers substation.
Under the assumption that line 12 is being called, the calling subscriber manipulates his sending device to interruptthe line circuit once and in response to this interruption, relay 21 is momentarily released. Relay 22, however, does not open its contacts and therefore upon the release of relay 1, a circuit is established from ground through the normal contact of relay 21, the inner right-hand contact of relay 22, the left-hand normal contact of relay 24 to the junction point 25 and from thence in one direction through the winding of slow-to-release relay 26, the outer right-hand contact of relay 27 and the middle right-hand normal contact of relay 28 to grounded battery. Relay 26 energizes and in so doing establishes an energizing circuit from ground through its right-hand alternate contact, winding of slow-to-release relay 29 and from thence over the energizing circuit of relay 26. The ground at the junction point 25 is also extended through the right-hand normal contact of upper or units counting relay 30 and the winding of the lower or tens counting relay 31 to grounded battery. The latter relay energizes in this cir cuit and through its right-hand contact closes a circuit for th upper counting relay. 30 extending to ground atthe inner left-hand alternate contact of relay 29. Relay 30, is shunted by the ground extending from the junction point to the other te-rn'iinal of said relay. hen relay 21' en.- ergizes at the termination of the single in terruption of the line circuit, the shunt around the relay is removed and said relay becomes energized in series with the relay 31. Since there has been only one interruption of the line circuit only the counting relays 30 and 81 will therefore be energized and the conductor 32, which is one of the conductors in the two groups of conductors, each in the principal direction of a two coordinate system, is now connected through the left-hand alternate contact of relay 31, the left-hand normal contacts of all the other lower counting relays to the conductor 33 leading to the lefthand normal contact of relay 34. The opening of the normal contact of relay 21 opens the energizing circuit for relay 26 which, after an interval releases to effect I the deenergization of relay 29. Upon the closure of the normal cont-act of relay 26, but before relay 29 has opened its alternate contacts, a circuit is established from ground through thenormal contact of re lay 26, the right-hand contact of relay 29, the left-hand normal contact of relay 34, the conductor 38 and "from thence through the left-hand contacts of the lower counting relays to the conductor 32. The ground on this conductor is extended to relay (Fig. 1), the other terminal of said relay being connected to battery. Thisrelay now energizes and looks through its right-hand contact to the conductor .36 which is grounded through the left-hand contact of relay 22 to the conductor 23 upon the initial energization of relay 22. p
The ground which is extended through the right-hand normal contact of relay 2e and the right-hand alternate contact of relay 29 also eitects the energization of relay 37 which, in closing its contact, extends said ground to on terminal of the relay 34. The other terminal of relay 34 is also connected to the grounded conductor 36 and therefore relay 34: does not energize at this time. Upon the opening of the right-hand contact of relay 29, the ground connected to the first mentioned terminal of relay 34; is removed andthereupon relay 34: ener- .es in series with relay 37. the latter relay being momentarily held energized in this circuit. Upon the closure of the righthand alternate contact of relay 34- and the opening of the right-hand normal contact thereof, relay 3? releases and relay 8s is through said right-hand contact, the ,resistance 38, the outer right-hand contact of relay 27 and the middle right-hand normal contact of relay 28 to grounded battery. The relehs ofrelay 29 also removes ground from the inner left hand alternate contact thereof and thereupon counting relaysiltl and 8i restore.
The mechanism is now in condition to re cei ethe series of impulses corresponding to the units digit of the called line. In the case assumed this units digit is 2 and upon the first interruption of the line circuit and consequent deenergization of relay 21, circuits a re established for relays 26 and 29 and the counting relays 30 and 31 as previously described. The energization of counting relay 30 transfers the conductor extending to the junction point 25 tl' rough its riglitdiand alternate contact, the left-hand normal contact or the upper units counting relay.
to grounded battery through the winding of releases as previously set forth and a circuit is then established extending from ground through the normal con tact of relay 26, the right-hand contact of relay 29, the inner left-hand alternate contact of relay 34;, which has beenprevirmsly locked, the righthand normal contacts of upper counting relays l-1 and 42, the righthand alter'natecontact of counting relay 39, the conductor 43 and'the winding of relay 44 (Fig. l) to grounded battery. The latter relay energizes and looks through its left-hand contact to ground at the conductor 36. The conductor 43 is the second of the two conductors in the two groups of conductors, each in the principal direotionot a two coordinate system. The ground extended from the right-hand normal contact of relay 26 also again causes the enei'gization of relay 237 to extend said ground through the outer left-hand alternate contact of relay 34 to one terminal of the relay 2%, the other terminal oi which is connected to the conductor 36 to thereby shunt the latter re of relay 241. the resistancel-5, the outer right-hand contact of relay 2'? and the mid- 'ht-han l normal contact of relay l battery. The release of relay nocd nnects the holding ground "from the energized counting relays, whereupon these relays restore to normal. Relays are now energized and locked and the sub-- scribers are ready for connection through contacts of relay 2?. Although the etlect 01'' the complete release of relay 29 is here described, it is to be noted that before this takes place, a tcstot the called line is made;
ll the line is bus t is condition is denoted by ground on the third concuctor of said line which will be extended through a correspoiuling contact oi? relay 35, the inner right-hand contact oi relay 4.4-, the conductor 45, the outer left-luuid alternate contact of relay 29, which is still energized, the innor normal right-hand contact and winding 28 to ground and battery. Relay 28 enoi 'zos and locks through its right hand aliternate contact to the conductor 36; and removes the battery from the middle right-hand normal contact to eli ect the release of relay Elt and prevent relay 2 1 from energizing as above described. The closing or the left-hand contact of relay 28 connects a source oi lmsy tone to one winding of the called subscribefis battery feed coil 49 from wheiure, by induction, the busy tone is trans mitted to the calling subscriber.
Upon. the replacing ot the receiver upon it switchhook at the calling substation in response to this busy tone, relay 21 releases to open the energizing circuit "for relay 22 which, after an interval, opens its contacts. The ground on conductor is thereupon .41) disconnected from the conductor 36 to cause he release of relays 28, 35 and 1 1 which have been previously locked to this conductor. The deenergization of relay 22 also disconnects ground on conductor 23 from the conductor 18, whereupon relays 12, 15, 16 and 1? release. normal condition.
Assuming that the called line is idle, no ground will be found upon the conductor 45 to energize relay 28. Therefore, when relay 29 is fully released, ground is extended from the outer right-hand normal contact of relay 29, the conductor 15, the inner righthand contact of relay 4: 1, a contact of relay 35, and the winding of cut-oil relay 16 of the called subscribers line to grounded battery. The energization of relay 46 in this circuit places a busy potential on the called subscribe-rs line in a manner well known in the art and prevents seizure thereof by any other line. At the same time the ground is extended from the inner left-hand normal contact of relay 29 through the left-hand alternate contact of relay 24; which became and at The circuit is now in its energized when relay 28 failed to operate,- the winding of relay 417, the outer right hand contact of relay 27 and the middle right-hand normal contact 01" relay 28 to grounded battery. Belay d7 energizes to connect ringing current through the winding of relay 418 and normal left-hand contacts of relay 2? to the called subscribers line. While the ringing current is being applied to the called subscribers line, suflicient current does not flow through the winding of relay 418 to energize the same, but upon the removal of the receiver from its switchhook at the called substation, this current is increased and relay 18 thereupon operates. It will be noted that prior to the energization of relay 18, relay 27 is shunted by current from the conductor 36 connected to both of the terminals of the winding of said relay but, upon the operation of relay 41.8, this current is removed from one of the terminals of: relay 2? which thereupon opcrates over a circuit traceable from grounded battery through the resistance 50 and the winding of relay 27 to ground on the con ductor 36. The operation of relay27 disconnects battery from one terminal of the relay 4? which thereupon releases. This disconnection of battery at the middle righthand contact of relay 28 from the outer right-hand contactof relay 27 also opens the locking circuit for relays 2 1 and 34; which thereupon release. The energization of relay 27 extends the link 01' trunk circuit 19 through the left-hand alternate contacts of said relays to the called subscribers line and conversation may now proceed between the subscribers.
The circuit is now in the same condition as existed just prior to the description of the release when the calling subscriber replaces his receiver upon hearing the busy tone, with the exception that relay 27 is energized instead of relay 28 and cut-off relay 16 is also energized.
At the termination of the conversation, the calling subscriber by replacing his receiver upon its switchhook, effects the release of the relays as previously described in addition to relays 27 and e16 as will be understood by reference. to the previous description.
Should the subscriber at substation 22 desire a connection to central ofi ice, the removal of the receiver from its switchhook energizes the line relay 1 which initiates the same operation as previously described to extend the subscribers line through contacts of relays 15 and 16 to the trunk or link circuit 19 extending to the mechanism shown in Figure 3. It will be recalled that upon the energization of relay 14:, a circuit is established for the cut-off relay 17 which disconnects the line relay 1 from the subscribers loop so that this relay releases to remove ground from the conductor 4, 5 and 9. The seizure of the mechanism 20 causes the energization of relays 21 and 22 so that ground from the right-hand normal contact of re lay 10 is extended over the conductor 18 to hold relays 12, 15, 16 and 17 energized.
In order to secure a connection to a central office trunk, it is necessary for the calling subscriber to dial the digit 0 to transmit ten impulses to the mechanism of Figure 3. In response to these impulses, relay 21 vibrates its armature and upon each successive closure of the normal contact of said relay, a pair of the count-ingrelays is energized. In response to the tenth impulse transmitted, counting relays 51 and41are energized and upon the closure ofthe lefthand alternate contact of relay 51, a circuit is established for the transfer relay 1O from grounded battery through the winding of said relay, the conductor 52, the left-hand alternate contact-of counting relay 51, the left-hand normal contact of relay 34, the right-hand contact of relay 29 and the righthand normal contact of relay 26 to ground, it being understood that relays 26 and 29 function in the same manner as previously described. The energization of relay 1O first removes ground from the right-hand contact thereof and in so doing causes the release of relays 12, 15, 16 and 17 which, at this time, are being held up by ground on conductor 18 which is joined to the conductor 23 through the outer right-hand contact of relay 22. The release of cut-01f relay 17 again connects the line relay 1 to the subscribers loop and this latter relay again operates to again identify the calling line and connect ground to the conductor 9 which is now extended through the left-hand alternate contact of relay 10 to relay mechanism associated with the first idle trunk leading to the central office. For purposes of'convenience, only one central office trunk is shown in Figure 1 and assuming that this trunk is idle, the ground on conductor 9 is extended through the normal contact of relay 53 and the windings of relays 54 and 55 to grounded battery to energize these relays. The operation of relay 54 establishes a circuit extending from grounded battery through the winding of relay 53, the winding of relay 56, the outermost right-hand contact of relay 54 and from thence over conductor 5 to ground through the inner left-hand contact of line relay 1. Another circuit is established in series with the re lay 53 through the winding of relay 57, the next to the outermost left-hand contact of relay 54, the conductor 4 and the outer lefthand contact of relay 1 to ground. Relays 53, 56 and 57 energize and lock temporarily to ground at the contact of relay 55. The
energization of relay 53 opens the circuits for relays 54 and 55 but relay 55 does not release until ground is returned over the third conductor 58 of the central office trunk. When relays 56 and 57 energize, a circuit is again established for cut-oif relay 17 extending through corresponding contacts of relays 57 and 56 to ground at. the contactof relay55, The energization of relay 17 again disconnects the line relay 1 from the subscribers loop to remove from the conductors 4, 5 and9.
The foregoing operation takes place before relay 29 (Figure 3) has opened its right-hand contact throughwhich relay 10 is maintained energized. Inasmuch as the operation of the relay mechanism associated with the central oflice trunk has now been effected, it is no longer necessary to maintain the transfer relay 1O energized and therefore upon the release of relay 29, the circuit for said relay 10 is opened andthis relay isthereupon released and the mechanismassociated with the trunk or link circuit 19 is again in its normal condition. The energization of relays 56 and 57 extends the calling subscribers line through contacts of said relays to the talking conductors of the central office trunk circuit and immediately upon said extension of the line, relays at the central ofiice, well known in the art, are operated to ground the third conductor 58 so that upon the release of relay 55 after an interval, the locking ground at the contact thereof,.for relays 56, 57 and 17 is transferred to the conductor 58. It will thus be seen from the foregoing description that in establishing a connection from a subscriber to central office, the relays 1 and 17 are first employed to temporarily utilize the trunk or link circuit 19 and then to effect the completion of a direct connection from the calling line to the central office trunk; It is believed that the release of this connection will be fully understood from the foregoing description.
What is claimed is:
1. In a telephone system, a subscribers line, a line relay therefor, a link circuit, a trunk, means controlled by said line relay for connecting said line to said link circuit, a subscriber controlled switching device for disabling said connection, and means thereupon controlled by said line relay for connecting said line to said trunk.
2. In a telephone system, a subscribers line, a line relay therefor, a link circuit, a trunk, means cont-rolled by said line relay for connecting said line to said link circuit, a subscriber controlled switching device for disabling said connection, and means there upon controlled by said line relay through said switching device for connecting said line to said trunk.
3. In a telephone system, a subscribers line, a link circuit, a trunk circuit, switching. devices having permanently paired priground mary and secondary contacts for extending said line to said circuits, a line relay and a cut-off relay individual to said line, means under control of said line relay for actuating one of said devices to extend said line to said link circuit means responsive to said extension of said line for operating said cut-oii relay to cut off said line relay means associated With said link circuit for disconnectingsaid'link circuit from said line and causing the deenergization of said cut-off relay and means under control of said line relay and said last means for actuating another of said devices to extend said line to said trunk circuit.
In atelephone system, a subscribers said line to said circuits, a line relay and a cut-elf relay individual to said line, a starter Wire circuit under control of said line relay said line and causingtlie deenergization of said cut-ofi relay, and a second starter Wire circuit under control of said line relay and said last relay for actuating another of said devices to extend said line to said trunk circuit.
In Witness whereof, I hereunto subscribe my name this 20th day of December A. D.
CHARLES L. GOODRUM.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2550241A (en) * 1945-06-29 1951-04-24 Automatic Elect Lab Crossbar switching device
US2559702A (en) * 1946-02-23 1951-07-10 Kellogg Switchboard & Supply Selector switching system
US2672520A (en) * 1950-04-13 1954-03-16 Automatic Elect Lab Telephone system for private automatic business exchanges

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2550241A (en) * 1945-06-29 1951-04-24 Automatic Elect Lab Crossbar switching device
US2559702A (en) * 1946-02-23 1951-07-10 Kellogg Switchboard & Supply Selector switching system
US2672520A (en) * 1950-04-13 1954-03-16 Automatic Elect Lab Telephone system for private automatic business exchanges

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