US1721640A - Automatic telephone system - Google Patents

Description

July .23. 1929. i l L 1 RuGGLEs 1,721,640

AUTOITIC TELEPHONE SYSTB.

original Filed laren 26, 1925 e sheets-sheet 1 Imran UF y Lennard L. Eules M 'AnzII-:

July 23, l929u.A L. L. RUGGLES 1,721,640

Au'rouurc TELEPHONE sYs'rnl Original Filed March 26, 1925 6 Sheets-Sheet 2 /aal [avenir/P Lennard Livi/iles mman?.-

July 23, 1929.

L. L RuGGLl-:s

I AUTOKATIC TELEPHONE SYSTEI e Smets-sheet 5 WAM@ NNN Original Filed lax-ch 26, 1925 Im Lennard L EL;

las

July 23, 1929. L l. RUGGLES 1.12115.

AUTOIATIC TELEIHONE SYSTEI Original Filed lax-ch 26, 1925 6 Sheets-Sheet 4 July 23, 1929. L. L. RUGGLES AUTOMATIC TELEPHONE SYSTEM original Filed March 2e, 1925 6 Sheets-heet 5 les Fmr-MUT Lennard L Eu July 23, 1929. L, L RUGGLES 1,721,640. l

AUTOMATIC TELEPHONE Sismi Original Filed March 26, 1925 6 Sheets-Sheet 6 ,ef-4J if] .DE 4

Lennard L Ruilvss n 7 Patented July 23, 1929.

UNITED STATES PAT-sur OFFICE.

LEONARD L. RUQG'LES, or wIIEAToN, ILLINOIS, ASSIGNoR, RYMRSNR ASSIGNMENTS,

To AUTOMATIC ELECTRIC INC., oF CHICAGO, ILLINCIS, A CORPORATION or DELA- WARE.

Application mea March 2e, 1925, serialv Thepresent invention relates to automatic telephone systems in general, but is concerned more particularly with automaticv telephone systems in which directors are eln- 5 ployed to translatethe otlice digits of the telephone numbers into the codes necessary to etfect the trunking of the various lcalls to the desired oflices by way of the most suitable paths; and the principal feature of the invention consists in the provision of new and improved circuit arrangements whereby the path over which a director routes a particular call is m'ade dependent upon the busy or idle condition of the trunk groups which may be encountered.

The invention is illustrated herein in connection with a system comprising a multioHce network in which the offices comprising the main network are more or'less closely grouped, geographically, and in which there is one small oflce'located at some distance from the main network but connected to the network through the medium of trunk lines run between the outlying oitice and the nearest office in the network.

It is assumed-that thevmajority of calls originated in the outlying oiiice are local calls. This situation may arise in case the otlice serves .a manufacturing town or other settlement which has only slightbusiness and social connections with the district served by the main part of the network.

By way of example, it is assumed that not more than 2000 lines are used at present in '35 the outlying ofce and that these lines are reached by way of the fourth and fifth levels of the thousands selectors. Accordingly, in

the ordinary procedure, theremaining levels of the thousands selectors would be left dead 40 for the time being. In this case, however, it

is proposed to use the thousands selectors for handling all calls, in which case arthousands selector is also an oflice selector, so to speak,

in that it sends a call to one of the two local thousand line groups or to the group of outgoing trunk lines, depending upon the digit transmitted to it.

It has been assumed that, due to the local conditions set forth above, thirty trun'kvlines combined into one .group will handle the trahie originated in the outlying office and intended 'for the other offices 'in the network.

Y AUTOMATIC TELEPHONR SYSTEM.

HEISSUED No. 18,368. Renewed October 22, 1928.

The ordinary way of securing a thirty-trunk group of trunk lines is to use outgoing secondary line switches and to provide (in the -l case ot' plunger type secondary line switches) three separate groups of secondary line switches, each group having access to a separate trunk group of ten trunks each, and to split the outgoing selector bank multiple into as many groups as may be necessary in order to secure a sufficient number of primary trunks to handle the traiic directed to the secondary group.. The above arrangement is well known, of course, and it is merely pointed out here in order to contrast it with the arrangement contemplated in the present case. V i

According to the present invention, three levels (instead of one) of the thousands selectors are taken over for use in connection with the above mentionedgroup of thirty direct trunks, namely, the third, sixth, and ninth levels, ten trunks being taken from each of the three levels. Now, since directors are used to route the calls, any one director may be cross-connected so as tosend all outgoing calls which it handles by way of any one of the three out-going levels. Accordingly, the directors are split into three groups from this standpoint. The directors of one group are cross connected so that they send callsl out over the ninth level; the directors of another group are cross connected so that they send calls out over the sixth level; and the directors of the other group are cross connected so that they send calls out over the third level.

The aboveis the normal arrangement, but

when one level becomes busy, for example,

the ninth level, thecross connecting in the directors which normally send tra'lic out over the ninth selector level is changed by means of a relay 4arrangement so that the calls are sent out over the sixth level, provided it is not also busy, andy are sent out over the third level instead if the sixth level is busy. 'In the case of the directors which normally send calls out over the sixth selector level, they are arranged to send their traffic out over the third level in case the sixth level be comes busy, and to send the calls to the ninth level in case the third level is busy also. f Similarly, the directors which normally send calls to the third level are arranged so as tosend the calls to the ninth level when the third level. becomes busy, provided the ninth level is not also busy, and to send the f calls insteadto the sixth level if the ninth level is busy.

4The arrangement for accomplishing the above results consists in the provision of chain relays. These relays pull up when all the trunks in the respective groups become busy, and the arrangement is such that they control the operationot the various groups of directors to bring about the results above set forth. Referring now to the drawings, they show by means of the usual circuit diagrams a suflicient amount of the apparatus in a .tele` phone system embodyingthe principles of the invention to enable the invention to be understood and its utility to be appreciated.

Fig. 1 shows the first selector FS which is accessible toline switches at terminals such as 2, 3, and 4, and vwhich has access to local hundreds selectors and to the three subgroups, together with the chain relay group G comprising the chain relays 109, 110,

and 111, which are used to control certainy trunking operations of the directors.

Figs. 3-6 show one ofthe directors accessible to the director selector DS, Fig..1.

Referring now to Figs. 36, the portion of the director shown in Fig. 3'includes the sequence switch S, which is used primarily to connect the incoming -impulse conductor to the various operating magnets of the director inthe proper order, and it accordlngly moves one step at the termination of each series of impulses. This switch is used also to'start the operation of the sender, Fig. 4, as soon as the oliice register OR, Fig. 5, has been set. Fig. 3 shows also the sequence switch S which is used primarily to control the order of the transmission of the various digits. This sequence switch is used also to effect the switching-through operation and the consequent freeing of the director, upon Ehe completion of the transmission of a num- U'interrupter 320, together with relay 302 and 303 and the sending switch SS. This drawing shows also the release relay 301, which energizes when the director is seized and which falls back when the director is freed.

Fig. 5 shows the otliceI register OR which responds to the two oiice digits of any number to bring the wipers 412-415 into engagement with the set of bank contacts corresponding to the called oitice.

Fig. 6 shows the digit registers Dlt-1- DR-4 which respond to the four subscriber digits, respectively, of a number and set their wipers upon the respective impulse stop conductors corresponding to such digits.

The apparatus having been described generally, a detailed description of the operation will now be given. For this purpose it will be assumed that a subscriber, desiring to call a subscriber whose line terminates in the distant ofice reached by way of lthe third, siXth,-and ninth levels of the first selector FS, removes his receiver.

When this subscriber removes his receiver, his individual line switch operates in the usual manner to select an idle trunk. In

this case it will be assumed that the trunk line switch at the terminals 2 4. lVhen this 'l y occurs, line relay 8 of the trunk circuit TC energized over conductors 5 and 7 and over the calling line. At armature 11, relay 8 closes a circuit for the slow acting' release relay 9, which thereupon energizes and places ground upon release trunk conductor 6 zit-armature 13, thereby establishing the usual holding circuit to maintain the seizing line switch operated after'its slow acting line. relay has fallen baeli.

Asa further result of the above men# .tioned operation of'the slow acting release relay 9, it connects the test wiper 50 of the director selector DS to the junction of switching relay 4 and stepping magnet 42 at armature 15, andat armature 14gcloses a circuit through switching relay 4 and stepping magnet 42 in series. From this point, the operation depends upon whether the director upon vwhich the Wipers o fnthesdiiector selector DS are standing is busy or idle. If it is idle, the operation of armature 15 of relay 9 does not produce any particular ef- `feet at this time and switching relay 4 energizes, seizing the director.

Assuming, on the other hand, that the director in question is busy, the ground potential encountered upon the busy test conn tact by test wiper50 short circuits relay 4 and prevents it from energizing. This ground potential'results in the operation ot the stepping magnet 42 which interrupts its own circuit at contacts 43 and accordingly operates in a buzzer-like manner to advance Fig. 4 shows the sender, comprising the the wipers 48-51 stepby lsten in search of an idle director.

-When an idle director is reached', which director, it will be assumed, is the 'one shown f with stepping magnet, 42. Stepping magnet in the drawings and reachedrby way of conductors 52--55, switching' relay 4, being no longer short circuited, energizes in series 42 does notl operate at-this time on account of the relatively high resistance of switching relay 4. At armature 46, relay 4 disconnects test wiper 50 from the junction of its-own winding and that of magnet 42 and connects it to ground instead, thereby making the seized director busy; at armature 47 it closes n point in the operating circuit, and at armatures 44 and 45 the said relay 4 vconnects up the wipers 48 and 49, thereby connecting conductors 19 and 21 of the first selector FS to a closed bridge in the seized director including the outgoing control conductors 52 and 53 and contacts 314 of the sender switch SS, Fig. 4, in multiple with armature 307 andresting contact. Accordingly, line relay 22 of the first selector FS operates and closes a circuit for the associated release relay 23Y which energizes to prepare the selector for operation.

` In the director, release relay 301 energizes over conductor 54 responsive to the grounding of conductor 54 through test wiper 50 by relay 4 of the director selector DS. At armature 304, relay 301 removes ground from the restoring conductor 215 of the sequence switch S; at armature 306, this relay removes ground from the restoring conductor 319 over which the release magnets of certain of the mechanisms are operated; and at armature 305 it connects conductor 112 to the two-step, code-control relay 401. In this case, it Will be assumed that there is no ground potential on conductor 112 and that relay 401, accordingly, is not operated at this time.

The circuits are now in readiness for the calling subscriber to dial the digits of the desired number.

Then the calling subscriber turns his calling device in accordance with the first otce digit, line relay 8 of the trunk circuit T C is deenergized a corresponding number of times and, upon each deenergization, disconnects the operating conductor from switching relay 10 and connects it t0 ground instead, thereby closing a circuit through the working contact and armature 47, wiper 51,

conductor 55, series relay 201, Fig. 3, distributing wiper 210 of the sequence switch S, and conductor 221, for vertical magnet 417 of the oice register OR, Fig. 5. Vertical magnet 417 responds to these impulses of current and raises the wipers 412-415, step by step until they come to rest opposite the desired level of bank contacts. Relay 201'is energized in series with vertical magnet 417 upon the first impulse ot current and, beingr slow acting, maintains its armature attracted throughout the series of impulses. At armature 203, relay 201 closes a circuit for the slow acting relay 202, which energizes and prepares at armature 204 a circuit for stepping magnet 205 of the se uence switch S.

At the end of the series o impulses, relay 201 falls back and completes the circuit ot' magnet 205 at armature 203, whereupon magnet 205 advances wipers 208 and 210 one step and wiper 210 shifts the operating circuit from the vertical magnet to the rotary magnet. A moment later, relay 202 falls back and opens the circuit of magnet 205 at armature 204.

lVhen the calling subscriber dials the next digit, the resulting impulses or" current are transmitted to the director over the operating conductors to wiper 210 of the sequence switch S and thence by way of conductor 222 to the rotary magnet 416 of the office register OR. The rotary magnet 416 responds to these impulses of current and-advances the wipers 412-415 step by step until they come to rest upon the desired set of contacts, which set, it will be assumed, is the one'shown in the drawings and connected to the right hand side of the intermediate distributing frame IDF by the group ot conductors 409. l

The sequence switch S is operated one step upon the termination of the second digit in the same manner as before and wiper 210 shifts the operating conductor over to conductor 231 leading to the operating magnet 501 of the digit register Dlt- 1.

Since both oflice digits have now been registered, the sender may be started now to transmit the digits'in the office code. Accordingly, wiper 208 of the sequence switch .S grounds the start conductor 216 leading to the sender and likewise wiper 214 of the sending control sequence switch S. thereby starting the sending operation in a manner to be pointed outpbelow.

Responsive to the dialling of the next digit, the digit register DR-l is operated and the wiper 502 4'is set upon the impulse stop conductor corresponding to the digit.

Similarly, the digit register 13R-,2 vresponds to the next digit; the digit register IDR-3 responds to the following digit; and the digit register DR`4 responds to the last digit.

It will be understood, of course, that the sequence switch S operates one step at the end of each of the digits. as before pointed' out, in order to connect the operating circuit to the stepping proper magnet in each case to bring about the operationabove described.

lViper 210 moves ofi' the contact associated Responsive to theV grounding of start con-.

ductor 216'by the sequence switch S at the end of the transmission of the second ofice digit, as'above pointed out, ground is interf mittently supplied through the interrupter 320 and the resting contact and armature 311 to the stepping'magnet 315 of the sending switch SS. Accordingly, the stepping magnet 315 starts to energize and deenergize under the control of the interrupter 320. The first energization of stepping magnet 315 results in the movement'of the associated pawl into engagement with the next notch in the wiper driving ratchet Wheel. The wipers themselves are not advanced at this time, but are advanced one step upon the subsequent deenergization of magnet 315. When this occurs, pick-up wiper 316 encounters a ground potential on the first bank contact, thereby closing a .circuit for the pick-up relay 302. Relay 302 now energizes and at armature 307 removes the shunt from around the sending contacts 314 of stepping magnetI 315. At armature 309 relay 302 placesground on armature 312 of stop relay 303, thereby preparing a locking circuit for the stop relay and closing ak circuit over conductor 217 for stepping magnet 211 of the sequence switch S, which magnet accordingly energizes and moves the associated pawl into engagement with the next notch in the wiper `driving ratchet wheel preparatory to advancing the wipersA 213 and 214 upon-the subsequent energization, As another result, of its energization, pick-up relay 302 grounds conductor 54 at armature'308 so as to maintain the director busy and to prevent the premature release of its component switchingA mechanisms in case the calling subscriber should hang up durin the transmission of a digit.

The shunt aving been removed from around the sending contacts 314l of stepping magnet 315 of the switch SS at armature 307 of pick-up relay 302, the next energiza-v tion lof stepping magnet 315 results in an opening atthe sending contact 314 of the outgoing control circuit including conductors-52 and 53, Upon the'following deenergization of the magnet 3145, the wipers 316 and 317 advance one step and the outgoing control circuit is again closed at contacts 314. At this time, thev stop Wiper 317 encounters the first impulse stop conductor so that in case the digit 1 is the one being transmitted, the' stop relay 303 will energize over the first stop conductor. The first digit to be transmitted in this case, however, 'is not the digit- 1 but is the digit 9 instead. Y

Accordingly, the sending operation is not stopped at this point but it continues uninterrupted until nine interruptions have been produced in the outgoing control circuit at the sending contacts 314. During the ninth opening in the. outgoing control circuit, thev Vstop w1per`317 is standing on the. eighth impulse stop conductor. Accordingly, when stepping magnet 315 of the sending switch SS again falls back, it closes the outgoing control circuit at contacts 314 and at the same time advances wipers 316 and 317 another step and wiper 317 encounters the ninth impulse stop conductor. a circuit is completed for stop relay 303 as follows: From ground by way of the start conductor 316, stop conductor .control wiper 214 of the sequence switch S', the first codedigit stop conductorI 241, Wiper 412 oi the ofiice register OR, the bank contact upon which it is standing, the upper conductor in the ground labeled 409, the associated terminal on the IDF, the IDF jumper connecting this terminal with the terminal in which conductor 404 terminates, conductor 404, armature 402 and its resting contact, armature 403 and its resting contact, and conductor 405 to the ninth impulse stop conductor; From the ninth impulse stop cond-uctor, the circuit continues to the associated .contact in ythe lower bank of the sending lconductor 217, stepping magnet 211 of the sequence switch S deenergizes and advances the Wipers 213 and 214 one step. Wiper 21.4 disconnects ground from the first code digit stop conductor 241 and places ground on the second stop conductor 222.

As another result of its energization, stop relay 303 disconnects stepping magnet 315 of the sending switch SS from the interrupter 320 and connects it instead through the local interrupter contacts 313 to wiper 316. Magnet 315 is self-interrupting in this circuit. Accordingly, magnet 315 operates in a buzzer-like manner to advance the wipers 316 and 317 to their normal position.

When the normal position is reached, wiper 316 encounters an ungrounded con? tact, whereupon the operation of 'magnet 315 ceases and the circuit of pick-up relay 302 is'opened. Relay 302, however, being slow acting, does not deenergize for the time being.

In the first selector FS, Fig. 1, line` relay 22 falls back once for each interruption produced in its circuit by the director as above pointed out, with the result that the selector 1s operated in the usual manner to bring its wipers 25-27 opposite the ninth level of bank contacts.

At the end of the vertical movement of the first selector FS, the usual automatic trunk hunting operation is initiated in the Thereupon Y round usual manner with the result that wipers -27 are brought into engagement with an idle trunk, which trunk, it will be assumed is the one comprising conductors 28-30 and extending to the repeater R, Fig. 2. That being the case, conductors 19 and 21 are eX- tended through to the wipers 25 and 27 and to conductors 28 and 30 upon the operation of switching relay 24 when the idle trunk is reached. Also, test 'wiper 26 is disconnected from the test circuit and is connected instead to the grounded release trunk conductor 20, thereby making the seizedtrunk busy immediately. Y

Responsive to the connecting up of the line wipers ofthe first selector FS, line re- Y lay101 of the repeater R, Fig. 2, energizes through the left hand repeating coil Windings and over conductors 28 and 30 and closes at armature 103 a circuit for release relay 102. lWhen this occurs, relay 102 pulls up and places ground onrelease trunk conductor 29 at armature 105 so as to maint-ain the connection established after the release l relay 23 of the first selector FS has fallen back as it shortly does and after release relay 9 of the trunk circuit TC has fallen back, which will take place upon thex switchthrough operati-on of the director, as will be pointed out subsequently.

In the repeater R, as a further result of the energization Aof release relay 102, it.I closes at armature 106 a point in the circuit of chain relay 111 in the chain relay group CRG. This, however, does not result in the energization of relay 111 unless all the otherv repeaters accessible to the' first selector FS from the ninth level are busy.

As a still further result ofthe energization of the line relay 101 of the repeater R, it closes at armature 104 a bridge across conductors 107 and 108 through the right hand repeating coil Winding. lVhen this occurs, the selector switch in which conduc- V tors 107 and 108 terminate in the distant voiiice is prepared for operation in the usual manner. y

In the director, relay 302 falls back after` the interval forI which it is adjusted, and at armature 309 opens the loeknrr circuit of relay 303. Relay 303, however, being slow acting, does notfall back foran interval. It may be pointed out that the interval of time required for relays 302:.and 303 to fall back one after the other is suicient to permit the trunk hunting operation of the selectors to take place. i

Vhen relay 303 falls back, it disconnects stepping magnet 315 from the self-interrupting circuit and connects it instead to the interrupter 320, whereupon stepping magnet 315 again starts to operate under the control of the interrupter 320 and the second digit in the number is transmitted in a manner similar to the first digit.

the fifth impulse stop conductor. Accordingly, stop relay 303 energizes and terminates the second digit when five impulses have been transmitted. The circuit overA whichl conductor 303 operates is as follows: From ground by way of the stop-conductorcontrol wiper 214 of thei sequence switch S', the second code digit stop conductor 242, Wiper 413, the bank contact upon which it is standing, the associated jumper on the intermediate distributing frame IDF, the

fifth impulse stop conductor, the associated contact in the sending-switch bank, stop wiper 3 17, and stop relay 303 to battery. 'f

The energization of stop relay 302 results in the termination of the second digit in the same manner as the iirst, and the sequence switch S advances one stop, thereby disconnecting ground from the code-digit stop conductor 242 and connecting it instead to the third code digit stop conductor 243.

Responsive to the transmission of the second code digit, the incoming selector in use in the distant office raises its Wipers opposite the fifth level of bank contacts and selects an idle oiice selector, either in the same oiiice or in still another office, depending of course upon the trunking a-rrangement.

After the usual interval, relays 202 and 203 both fall back vand the third code digit is transmitted in the same manner as the v two preceding digits.

Upon referring to the intermediate distributing frame IDF, it vma be noted that the third bank contact of t e set in use is cross connected on the intermediate distributingv frame to the fourth impulse stop conductor. Accordingly, the third code digit is the digit 4, and the stop relay 302 of the sender is energized Vthrough the third codedigit stop conductor 243, wiper 414, the jumper on the intermediate distributing frame and the fourth impulse stop conductor to terminate the digit as soon as four interruptions have been produced in the outgoing control circuit.

'lhe advance o f the sequence switch S takes place in the usual mannertupon the energization of stop relay 303. Accordingly, .wiper 214 removes Ground from the third code-digit stop conductor v243 and places ground upon the fourth code-digit stop conductor 244. In this case there are only three digits in the code of the called oce. I`lierefore,.the fourth code-digit stop conductor is not used to terminate a digit, but it is, nevertheless, necessary to advance the sequence switch S through its fourth codedigit position. Accordingly, the bank contact engaged by wiper 415 is cross connected on the intermediate distributing frame IDF to the skip conductor 218. rlhat being the case, when the fourth wiper 415 is groundedy over conductor 244, ground is extended across the intermediate distributing frame to the skip conductor 218 and thence through the self-interrupting contacts 212 to the stepping magnet 211 of the sequence switch S. Stepping magnet 211 energizes and interrupts its own circuit, whereupon it deenergizes and advances the wipers 213 and 214 `one step. Wiper 214 accordingly removes ground from conductor 244 and extends it to the first subscriber-digit stop conductor 251.

Responsive to the transmission of the third code digit, the ofiice selector seized at the end of the second code digitraises its wipers opposite the fourth level and selects a trunk line extending to a thousands selector in the desired oiice.

In the director, thesender now transmits the four subscriber digits, one after the other, with the usual intervaly between the-digits introduced by the slow action of the relays 302 and 303, the four subscriber-digit stopconductors 251-254 being grounded ,one after. the other in order by the sequence switch S under the control of the sending switch.

l At the end of the transmission of' the fourth subscriber digit', wiper 214 advances from its eighth position toits ninth position, thereby removing ground from the fourth subscriber digit stop conductor 254 and placing ground upon the switching branch 55 ofthe operating conductor 55. When this occurs, a circuit is closed over conductor 55 through the contact and wiper 51 of the director selector DS, armature 47 and its working contact, and armature 12 and its working contact for vswitching relay 10 of the trunk circuit TC. Switching relay 10 euergizes over this circuit and locks itself to the grounded releasetrunk conductor at armature 17, and at armatures 16 and 18 disconnects conductors 5 and 7 from line relay 8 and extends them to conductors 19 and 21, at the same time disconnecting conductors 19 and 21 from the outgoing control circuit lof the director, thereby leaving the established connection under the direct control of the calling line.

Line relay 8 now falls back and opens the circuit of release relay? 9 at armature 11.

Accordingly, release relay 9 deenergizes after the interval for which it is adjusted and removes ground from the release trunk conductor at armature 13, leaving the established.

connection held by ground suppliedtoV the release trunk conductor at the repeater R, Fig. 2. At armature 15, relay 9 opens a further point in the connection previously existing between test wiper 50 and the junction of relay 4 and stepping magnet 42 of the director selector DS, and at armature 14 disconnects ground from switching relay 4, whereupon relay 4 falls back and frees the director.

In the director, relay 301 falls baci: responsive to the removal of ground from the release trunk conductor 54 when the director is freed. At armature 304, relay 301 places ground on the restoring conductor 215 thereby closing a circuit through Wiper 213 and contacts 212 for the stepping magnet 211 of the sequence switch S. v7When this occurs, the self-interrupting stepping magnet 211 advances the Wipers 213 and 214 through their remaining step to their normal position.

At armature 306, relay 301 grounds the release conductor 319, thereby supplying current for operating the release magnets of the 35 digit registers DR 1DR-4; the release magnet of the oliice register O R; and the release magnet of the sequence switch S. Ac; cordingly, the release magnets mentioned operate and restore the respective switches to their normal osition. For example, release magnet 418 o the olice register OR operates through off normal contacts 419, and release magnet 206 of the sequence switch S operates through oi normal contacts 207. The cir` cuits of the various release magnets are opened in the usual manner at the respective associated off normal contacts. i

At armature 305, relay 301 disconnects conductor 112 from conductor 318.

Regarding relays 302 and 303, it may be pointed out that relay 302 obviously falls back prior to the deenergization of relay 301 and removes ground from conductor 54 at armature 308 to permit relay 301 to fall back. Relay 303 falls back because its locking circuit lis opened at armature 309 of relay 302.

-The desired connection has now been completed in the called office through the medium of a thousands selector. a hundreds selector, and a connector, and the vcalled subscribers bell is rung.. in the usual manner provided the'line is idle, in which case the conversation takes place in the usual manner when the called subscriber responds.

When the called subscriber replaces his receiver atthe end of the conversation, line relay 101 of the repeater R, Fig. 2, falls back and opens the bridge across conductors 107 12o and 108 at armature 104, with the result that the connection extending to the distant oiiice is released in the usual manner. At arma-v ture 103, line relay 1,01 opens the circuit of release relay 102 which deenergizes after the 125 usual interval and opens at armature 106 a point in the circuit of chain relay 111. At armature 105, relay 102 removes ground from release trunk conductor 29, whereupon the finti selector FS releases in the usual manner 13o Cil and switching relay 10 of the trunk circuit TC falls back. TheA entire connection is now released. Assuming now that all trunks accessible to the first selector FS on the ninth level are busy, the release relays of all the repeaters of such trunks, including the release relay 102 of the repeater R, are energized and a chain circuit is completed for the ninth level chain relay 111 of the chain relay group CRG. When this occurs, relay 111 energizes and connects ground through the resistance 122 to conductor 112 at armature 123. Incase the director shown in Figs. 3-6, is seized at this time, the two-step relay 401, Fig. 5, energizes over conductor 112, through the working contact and armature 305, and over conductor 318. This relay opcrates through its first step only at this time, due to the fact that it is energized through resistance 122, F ig. 2. Accordingly, the first step armature 403 is operated, but the second step armature-402 is not operated. Arma.- ture 403 disconnects conductor 404 from the ninth impulse stop conductor and connects it to the. sixth impulse sto conductor by way of the conductor 406., ccordingly, the first digit to be transmitted (in case the call is an outgoing one) is the digit 6 instead of the digit 9 and in case the first selector', FS is the one in use, thisv selector raises its wipers opposite the sixth level (instead of opposite the ninth level) and selects an idle trunk line in the group to which the repeater R belongs.

Assuming now. that all the sixth level l trunks become busy, all the release relays of the various repeaters associated with these trunks, including release relay 102 of the repeater R', are energized. Accordingly, a chain circuit is closed for. chain relay 110 of the chain relay group CRG. That being the case, relay 11.0 pulls up and short circuits the resistance 122 at armature 120and, in caes the ninth level chain relay 111 is energized,

direct ground is placed on conductor 112,

with the result thatl the two-step relay 4 01, Fig. 5, is operated in case the director'shown in the drawings is taken for use at this time. Relay 401 operates through both its first stepl and its second stepr at this time and at armature 402 connects conductor 404 to the third impulsestop conductor by way `of conductor 407, therebyl pre-determining that the .first digit to be transmitted in casean outgoing call is made at this time is tlie digit 3. o a

It will be understood, vof course, that the chain relays are provided with sufficient contacts -to enable a conductor similar Vto 112 to be provided for each of the directors in the.

i Yleve'lof the first selectors.

RegardingA the directors the .grou which normally transmits the d1git'6, itunay be pointed outI that conductor 113, Fig. 2,

extends to one ofv the directors in this groupand corresponds to conductor112 in its manner of connection in the director to which it` extends. It will be noted that when the sixth level chain relay 1 10 pulls up, ground is placed on conductor 113 lat armature 119, through the resistance 118, so as togpull the two-step code-changing relay in the associated director half way in case the vdirector. is in use, thereby shifting thestop circuit so that lthe first outgoing digit toy be trans mitted is the digit 3 instead of the digit 6.y 1

It willbe noted that when the third level chain relay 109 is operated simultaneously with the energization of relay' 110, direct groun'dthrough armatures 117 and 1.19 is placed on conductor 115, so as to pull the code changing relay in the associated director all the way up to shift the stop circuit so that the first outgoing digit to b c transmitted is the digit Y9.

The conductor 114 is typical oi the con- Itwill be noted that in case the third and ninth level chain relays 109 and 111 are operated simultaneously, ground through armatures 121 and 116 in series is placed on conductor 114 to pull up the associated chain' relay allthe way to shift the stop circuit so that the'digit 6 is the first outgoing digit to be transmitted in case the associated director is in use at this time.

It will be appreciated, of course, that the conductors 113 and 114, like the conductor 112, are each individual to one. director and ythat sufficient conductors connected rimilarly must be provided to take care of the remaining directors in these two groups.-

In order to explain still another function of the director shown in the drawings, it will be assumed`that the trunklextending through the trunk circuit TC to the first selector FS is seized'atthe bank` contacts 2 4, and that when the director selector DS o )crates it seizes the director shown in the rawings, which is accordingly lpreparedfor operatiorf in the usual manner.-

Itwill be assumed' further that the number assigned to the local oiiice is 30 and. that the calling subscriber is calling a local line. Accordingly, the calling subscriber dlals the two oiiice digits 3 and 0 assigned vtothe vlocal office. `V The office register OR raises its wipers-4'12-415 opposite the third level of bank contacts responsive to the first ofiice digit 3.

Responsive to tliesecond oiiice digit 0, the office registery OR rotates its wipers step by step until-they land upon thetenth set of bank contacts (not shown) in the third I digit, either 4 or 5, the first selector FS operates as a thousands selector to select an idle hundreds selector in the elected thou-f sands group.

lVhen the calling subscriber dials the .three remaining digits in the-desired number, the seized hundreds selector and a connector switchl are operated to extend the connection tothe desired local line.

The foregoing arrangement is particularlyfdesirable in a situation like the one assumed in the present case, because, in this case, the ratio of local calls to outgoing calls is very large and, since no director is needed to route the local calls, (the director being freed immediately upon the termina` tion of the dialling of the oiiice digits yon local calls), the number of directors required is Very greatly. reduced.

Reference will now be had again to Fig. 5 in order to explain that the armatures 402. and 403 of the two-step code-changing relay 401 may be used to change the same digits in as many codes as desired. For example, the same group of outgoing trunk lines is used for calls toall the distant officesbut each' oiiice has itslown code. ,How-` ever, these codes all have the same first digit and, as may be expected, the first code digit stop conductor is cross connected on the intermediate distributing frame IDF to the common terminal in which conductor 404 terminates. For example, the contact associated with the first of the conductors in the group 409 is cross connected to the. .above mentioned common contact, as hereinbefore explained, and the two other groups shown, namely, 408 and 410 have their first conductors cross connected to the above-named common contact. Although, no other contact groups representing individual positions of the office register OR are are shown, it will be assumed that the remaining bank contact sets are cross connected on the IDF in the same way as regards the first code 55 digit position, and it will be understood that the other contacts of such sets are cross connected in accordance with the remaining digits in the respective oiiice codes.

What is claimed is:

l. In a telephone system, an automatic switch, a plurality of groups of lines accessible to said switch, a sending apparatus for transmitting impulses to bring said switch into operative relation with one of said groups of lines, and means responsive to the condition of all lines in said group being busy for altering said sending apparatus' before it starts 'so that it will send a different series of impulses to bring said Switchs@ into operative relation with another one of said plurality of groups of lines.

2. In a telephone system, an automatic switch, groups of lines accessible to said switch, an impulse sending apparatus for 55 sending av particular series of impulses to said switch to effect the operation of the switch to associate it with the corresponding 4 .one of said groups of lines, and circuit ar rangements controlled from. the lines of said last mentioned group and responsive to a predetermined condition of said lines to alter the digit transmitted to said switch so that it will be brought into operative relation to a different one of said groups of lines.

3. In a' telephone system, a director in- `cluding a register switch and a sender, an

automatic switch, means operated during the course of a call for extending a connection to said automatic switch and for temporarily 100.

associating said director with said automatic switch, means 4for ope-rating said register switch over the calling line, said sender being subsequently controlled by said register s switch to transmit a digit to said switch in accordance with the position assumed by said register switch, and means controlled in aceordancewith the 'condition of the trunk lines accessible to said switch for modifying the register control to cause said sender to 11o transmit a different digit to said switch.

4. In a telephone system, a trunk line divided into two sections, an automatic switch connected with the second section, means operated during the course of a call for seizing the first section of said trunk line, means responsive to said seizure for connecting a register to the first lsection and for connecting a sender to the' second section, meansL controlled over the calling line for setting said register switch in either of two positions, means 'responsive to the setting of said register switches in one position for controllingcthe- YsenderftoA transmit impulses over the second section of said trunk line to oper- 325 ate the automatic switch in which said section terminates, and means immediately responsive to the setting of said register lio switch into the other of said positions for Joining the two sectionsl of said trunk line together and for disconnect-ing said register and said sender therefrom.

5. In a telephone system, a trunk circuit, a director and means for connecting the saine to said trunk circuit, means for d iscon? necting the director from said trunk circuit, an office register in said director, and shaft springs on said office register for controlling said .disconnecting means.

6. In a director, an office register, a director' cut-off control conductor, and shaft springs on said register for grounding said conductor.

7. In a telephone system, a first office, a second office, two groups of trunk lines extending from said firstl office to said second office, a director in said First office normally set to translate the office designation of said second office into a code which will trunk a call over a trunk line-in the first of said groups, and means effective in case all the trunks of said first group are busy for changing said code before transmission so that the call will be trunked over a trunk line'in 'the second of said groups.

8. In a telephone system, a first office, a second office, three groups of trunk line's eX- tending from said first office to said second office, a director in said first office normally set to translate the office designation of said second office into a code which will trunk a call over a trunk line in the first of, said groups, means responsive to a' busy condition of said first group for changing the code before transmission to cause the call to be trunked over a trunk line in the second group, and means responsive in case both the firstand second groups are busy for changing the code a different way so as to trunk the call over a trunk line in the third group.

9. In a telephone system, a first office, av

second office, three oups of trunk lines extending from said rst office to said second office., a director in said first office normally set to translate the ofce designation of said second office into a code which' will trunk a call over a trunk linel in the first of said groups, and means responsive to the busy condition of said firstgroup for changing the code before transmission to cause the call to be trunked over a trunk line in one of the other groups.

10. In a telephone system, a first office, a

second office, a plurality of groups of trunks 'extending from the first o'ice vto the second office, a plurality of groups of directors in said first office, the directors of the first group. being arranged to extend callsto the second office via the first group of trunks,`

the directors of the second group being arranged to extend calls to the second office via the second group of trunks, etc., yand means eective in case any group of trunks is busy for changing the directors in the corresponding group so that they will trunk calls to said second office via an idle group of trunks.

11. In a telephone system, an automatic s witch, a pluralityof groups of lines accessible to said` switch, a send-ing apparatus for transmitting impulses to bring said switch into operative relation with one 01Ey said groups of lines, and means controlled in accordance with traffic conditions in said groups of lines for altering said sendin apparatus before it starts so that it will sen a. different series of impulses to bring said switch into operative relation with another one of said plurality of groups of lines.

12. In a telephone system, a pluralit of groups of trunk lines over which calls aving a common destination may be trunked,

means whereby calls are normally trunkedk over said groups in substantially equal proportions, and means effective in case one of said groups becomes busy for diverting the calls that would otherwise be directed through this group to a the remaining groups.

13. In a telephone system, a plurality of groups of trunk lines for handlingcalls having a common destination, a like pluralit of groups of call directors, each group of directors being arranged to direct the calls handled thereby through a different one of said groups of trunk lines, and means effective in case any group of trunk lines becomes busy for altering the corresponding directors so that they direct their calls through idle ones of said trunk lines.

14. In a telephone system, a plurality of groups of trunk lines for handling calls having a common destination, a like plurality of grou s of call directors, each group of directors Being arranged to direct the calls handled thereby through a different one of said groups of trunk lines, and means effective in case a 'ven group of trunky lines becomes busy or altering the corresponding directors so that they direct their calls through ay single one of the other groups of trunk lines, said means being effective in case a given other group of trunk lines becomes busy' for altering t eir corresponding directors so that they direct calls through another single one of said groups of trunk lines.

15. In a telephone system, a pluralit of groups of trunk lines for handling calls aving a common destination, a like plurality of groups of call directors, each group of di rectors being arranged to direct the calls handled thereby through a different one of said groups of trunk lines, and means effective in case a given group of trunk lines becomes busy for altering the corresponding directors so that they direct their calls through a 'particular other one of said particular one of groups of trunk lines, said means being effective in case said particular groupfof trunk lines is busy` forialtering the lsaid corresponding directors so that the calls handled lthereby are directed to idle trunk linesin of directors can use another of said trunk groups as a second choicegroup in case the trunk line group normally used by such directors becomes busy.

17 .,In a telephone system, a plurality of trunk line groups for handling calls having a common destination, a like plurality of groups of call directors, said call directors being so arranged'that each directs the calls handled thereby to a separate one of said trunk line groups, and means in each director controlled in accordance with the busy or idle condition of said trunk line groups whereby another of said groups is used as a secondl choice group in case the trunk line group normally used by the directors in any given group becomes busy, the last named means being so arranged that in case the second choice trunk line comes busy or is busy when the iirst choice trunk line group is busy the calls will be directed through other trunk lines as long as there are other trunk lines idle. l

18. In a call director for use in transmitting to receiving apparatus, a register, a

' sender arranged to be controlled thereby in a given way, and means including a relay controlled by said receiving apparatus for altering the said control. i

' 19, In a director, registering apparatus, a sender controlled by said registering apparatus, means including a distributing frame for determining the extent of such control, and additional means for altering the extent of such control.

-means for transmittin two different digits responsive'to such registration, 'and a relay Pcontrolled in accordance with traflic conditions insaid automatic switching apparatus for determining which of said two digits is to b`e transmitted.

22. In a director, means for registering an' oiice designation, means for transmitting either of two different office codes res onsive to such registeration, and a relay or determining which of said codes is to be transstop conductor terminals, jumpers connect.

ing certain of said terminals, and means including a relay for shifting a particular register terminal from one stop conductor terminal to another, said means being controlled v in accordance with traffic conditions inone of said trunk-line groups.

y 24. In a director for controlling automatic switching-apparatus, a distributing frame comprising register terminals and other terminals adapted to be connected together by jumpers, and means includin a relay controlled in accordance with tra c conditions in said automatic switching apparatus for controlling a jumper connection.

25. In a telephone system wherein automatic switching apparatus is controlled by a plurality of register senders to direct calls through a plurality of groups of trunk lines, means responsive to a heavy trafiic condition in one of said -groups of trunk lines for altering the register senders so that calls which would otherwise be directed toward such group of trunk lines are instead diverted to a different group. A

`26. In a telephone system, a pluralit of groups of\trunk lines, automatic switc iing apparatus arranged to extend connections over said trunk lines, lregister senders arranged to control said automatic switching apparatus, a group of relays arranged-to operate in accordance with traiiio conditions in said trunk line groups, a plurality of conductors extending directly from said relays to said register senders, and means controlled over said conductors by said rela s for altering the control exercised on t e switching apparatus by the register senders.

27. In a telephone system, a plurality of automatic switches having access to a group of trunk lines, a register. sender arranged to icontrol any one of said switches to bring itL into` operative relation with said group of trunklines so that the switch may extend a connection to an idle one of them, and

. means responsive to a busy condition within saidwgroup ofmtrunk lines for preventing said register sender from directing said switch into operative relation with the busy group. A

28. In a telephone system wherein automatic switching apparatus has access to groups of trunklines and is controlled by lregister senders, means responsive to a busy ing a given change in the directing apparatus of one of said register senders and for effecting a different change in the directing appa atus ot' another register sender.

30. In a telephone system wherein aut-omatic switching apparatus operates under the control ot' register senders to trunk telephone calls through trunk linegroups, register sendersbeing divided into a plurality of groups, and means responsive to a. heavy t-raflic'condition within a given tl'unk line group for producing alterations in each of said groups of register senders, the alteration being different in each group. 3l. In a telephone system wherein automatic-switching apparatus is controlled by register senders to direct c alls through a plurality of groups of trunk lines, each of said register senders including registering appa- 'atus and a sending device interconnected by digit conductors, means responsive to a 4vheavy traffic condition within one of the phone-system to operate automatic switching apparatus by transmitting digits thereto to route calls through trunk-line groups, a digit conductor in said register sender, registering means for effecting a connection with said conductor, sending'means responsive to such connection being made for sending a predetermined digit to the au'tomatic switching apparatus, and means re'- spo'nslve to a heavy traffic condition witlnn a, truuk group for altering the register' solider that the sending apparatus is controlled over the said connection to said conductor tosend out a different digit' to the automatic switching apparatus.

-In witness whereof, I hereunto subscribe my name this v23rd day of March, A. D.

LEONARD L. RUGGLES.

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