US1045820A - Telephone-meter. - Google Patents

Description

G. DEAKIN. TELEPHONE METER.

APPLICATION FILED 002.23, 1908.

1,045,29. Patanted @6118, 1915 4 SHEETS*SEEET 1.

WITNESSESZ G. DEAKIN.

TELEPHONE METER.

APPLICATION FILED 001223, IZJQB.

Patented Dec. 3, i912.

K wi-5,82%

SHEETS-SHEET 2.

WETNESSES'.

G. DEAKINk TELEPHONE METER. APPLICATION FILED 00122321908 Lflfifigm, Patented Dee.3,1912.

4 SHEETS-SHEET 3.

G. DEAKIN.

TELEPHONE METER.

APPLICATION FILED 0013.23, 1908.

1 aggg ggg Patented. Dec. 3, 1912.

L SHEETS-SHEET 4,

h li i lfllcl til er GERALD DEAKIN, 0F OAKLAITE MILLER, OF C35.

roeaeze.

Application filed. @ctobcr 15308.

Specification of Letters Fiatent. 3 gii ignter Q [3,, as

i t"??? {it .jEPHONE-NZETEE.

Serial No. 459,138.

To all. QUINN/l, it 'ITML'U concern:

Be it known that l. GERARD ilmitix. 'a citizen of the United States of America, and

a resident of Oakland. county of Alameda, 1 and State of California. have invented a new and useful lmprovenient in lelephone- Meters. of which the following is a specification.

My invention pertains to electroi'i'iagneticall v controlled counting devices and is designed particularly for use in a telephone central oflice.

My invention pertains to the electromagnetic mechanism controlling a counting train and adapted for use with any telephone ineter system in which current of a predetermined strength and direction is passed over a wire at the time registration is desired.

in the preferred form 01" my invention 1 provide for registering when current of a predetermined strength and direction is passed over the wire; in the preferred form o't'nrv invention. the operating coil of the, meter is removed from the wire when the current of the predetermined strength passes. whether the current: be of direction such as to cause the operation of the counting train'ot the meter. or of the opposite direction.

In thc preferred form of my invention. 1

provide a meter having an operating coil adapted to be included in a telephone line, the mechanism controlled by the CUll being adapted to operate in either of two ways.

depending upon the direction of the energizing current, the operation of the mechaisni in one way producing a registration upon the counting train of the meter and removing the controlling coil from the telephone line. and the operation of the n1echanisin in the other way producing no registration upon the counting train of the the ter, but removing the controlling coil from the telephone line.

For the purpose of explaining the operation of the device of my inventioin-lv illustrate a portion of the circuits and apparatus 01"? an automatic telephone exchange with a meter device associated therewith.

I show a system in which the device oi: my invention is associated ,With a sul'iscrihers line and s adapted hy'the circuits and mechanisms of the central oince to register one additional unit upon its counting train l l i l l l the presence of the n upon the tirst answering of called line in response to a call originating upon the subscrihers line pertaining to the meter. 1 show further. ii'ieans whereby lines for terminating calls are divided into two clas. the first case of 'ivl rcontrols the meter or"? the willing line to unit upon a counting train when first answering a call. and the scco 1 class of which controls the meter in iner as not to operate the counting trai L.

in an automatic "i1l3l0')l'l0ll8 central oii'ice equipment of" an of the types now Widely used. a line entering the o'llice branches in o two paths. one of which passes to the multiple terminals of the connectors and carries all calls in which that line a calid line, and the sci-o 11 of which extends tou rid the selectors and remains idle or is disconnected duriue the continuance of calls terminating upon the line hut carries the operating cir-- cuits oi the line tor all calls originating up n the line- "he branch to the connector multiple rot-milling unused in such calls.

l install in improred meter in the calll'orwardin branch of the subscriliiefs line, thus placing it in a position where it is ina tive upon any connection in Nlllt'ii. the call recciritiy liranch ot the line used.

in the selectors or connectors i show relays circuits wluzrel i the answering of a electrical contacts operated successively and having the tollowine' functions: The contact lirst operated cl v circuit which controls the meter therex The ml operated ren'ioves the meter "cm the line. Leaving the line.

and not modifiedor unbalthe co} .isation by reason of :er in association with circl Li anccd durii the line. To provide for unlocking the me:

ter at the teniinatizni of the connection, that it may 1i i to proper condition preparetor to re uttering r on an e are; connection 1 take the an ihroiw-h electri son: i

changed incidentally to setting up a connec-' tion and .which remains in its changed'condition throughout the continuance of the connection; by the return to normal condition of idleness of this unit of apparatus, the locking circuit is interrupted and the meter mechanism is restored. The. apparatus unit selected would be the first auto-v matic switch involved in the connection,

' and if that switch be individual to the meters line, the meters locking circuitmay take a contact upon any relay armature or other moving part fulfilling the required conditions. I

For controlling the current values upon themeters line, I show a relay in circuit with the called line, having contacts upon its armatures to control the resistance of the circuit of the calling line.

i To provide for the completion of connections with predetermined lines without involving the operation of the meter, .l. polarv counting train.

without operating ating an initial, ma

1n thedrawings Figure-1 shows one. embodiment of my invention; Fig; 2 a modification thereof; Fig. 3 the general'circuits of an automatic central oftice suitable for operation in connection with my meter, the circuits shown being those used for the forwarding of calls of'the regular class in which each answered call will operate the meter andits counting train; and Fig. l shows the connector circuits in which the reversed current is furnished to the calling line so as to operate the meter mechanism its counting train upon the response of the called station to which calls areto be free; Figs. 5 and 6 taken jointly show the'complete'oircuits ofa telephone connection set up by means of an automatic central 'ofiice of a'type with which my improvedmeter is designed to operate; the four Wires extending upward from Fig.

. 5, being found in continuation in Fig. 1 to complete. the talking connection.

Referring to- Fig. 1, the polarized relay and servicemeter shown therein is intended 'tO COIHbln the functionsof a polarizedr'elay ando'f a service meter,- theline winding "lo-being of low resistance and inductance and therefore being adapted to be included directly in a telephone circuit, and'being at the. sametime of sufficient Strength m re: etic. field to move the armature-4',- tofwhic -.the;hloc l; 5 is rigidl the winding'lti, to act as magnet,.the stronger field of magnetization set up by the operate the meter and its .ing units which I show energized, closes line switches of magnet 24 selectsand attached, to lift thespring 20 by a'inovement of the block 5 and thus close the circuit between springs 20 and 19; it will be seen thus that the winding 15 is substantially a relay winding; its efi'ect'being to close the contact between springs QO-and 19, and this it will do regardless of the direction of the energizing current through the windinglo, since the movement-of the armature 4 and block 5 in either direction will lift the spring 20.

Referring to the electromagnetic device, it will be seen that the two cores 14, together with the yoke-piece and-two windings 15 and 16, form an electromagnet of horseshoe form. The association with this electromagnet of the permanent magnet 13 gives it the capability of acting in some cases as it is also evident that after the electromagnet has been caused to act as a polarized electromagnet 1t 1s theirin position, when SubJected to the strongmagnetlzing force of.

winding 16'being capable of over-powering all permanent magnet.

The winding 15 is connected through conductors 21 and 21 with the central oflice circuits of Fig. 3.

Referring now to Fig. 3, 22 is a substation which may institute a call by removing the receiver from the hook and so bridging the telephone set upon the line; 23 is a similar substation which may be called by substation 22; both are of a type of automatic telephone apparatus now in common use, as

olarizin effort of the a non-polarized also is true of the remainder of the'connect and describe in connection with my invention herein. Upon the rising of the switchhook art-substation 22, current from the battery B, or other source of central oflice current, flows through the trip magnet 24, the limbs of the line, the closed telephone circuit at- 22' and [again to the battery B, The trip magnet 24, being respectively as 50, 51, 52, 53. These contacts are thus incommon use in individual tems, and it is their regular office in such systems, as it is in Fig. 3, to extend the limbs of the calling line toward some idle connecting unit. Any of the'usual methods whereby the individual I such as 26,-1 are satisfactory arrangements, for the 'ope ationz of my de-jivice. r .7

3 sales qmitted all of the contactsshown automatic telephone sysswitch containing" trip connects with the line: -to an. idle connecting unit containing a Ibridged; relay,

In the act of making lrum the trip magnet Lil the means by which the contacts 50. Bl. 52, 3 are closed. 1 how in connection with the trip magnet however the armature and contact \i'henever contactat 2? is closed, ground upon the wire 28. operates as a result of grounding the conductor 28 until have talien place.

The relay 20 is of similar eha *acter to the relay 20, both being in general the two rciays customarily provided in a connector oi at and this places 27. the trip magnet it is energizcthi a cooperating action shall' unism'to close contacts 30. ol.

Xo apparatus 1 i automatic telephone exchange, the regui ter 20 now is operated by the subscriber to tar otlice at such connector being to lind and count:- with it called line in the multiple of lines to which the connector has access. The relays 20 and '29 respectively furnish current for conversation to the substations 22 and 23 These relays as current supp] bridges are counterparts of current supply bridges in manual switchboard connecting cords, and the condensers 30 and 3t similarly interrupt the ctmnecting circuit so that direct current from the relay 20 may not pass to the substation 23 and vice versa.

Further, relay '26 is that which is known in ordinary automatic practice the bridging relay relay 20 is that which is known as the back bridging relay of the connector. The relay 2t) may be of whatever resistance the ordinary features of the telephone systems reuire: the relay 20, however, has two pairs ot wnnhng's, one high and the other low in resistance, a suggested resistance being 250 front ol? the connector, and the L is clcsed I FA .32}, which contacts remain closed until relcasec byahe release magnet if. so also it holds contact 2? closed as is usual in contacts asstmiated with such tripping ol individual autciuatio switches. The line from substation '12 now through side switch arms Wt. 102 to line relay 1023. which is energized and at tracts its armature. The attraction of the armature cl 101, energizes release relay lOl. which is so constructed that it re ponds only to current changes in its hell}; when the changed condition is maintained for a pie determined peril d. -The impulse transmitinterrupt the line a predetermined, num er of times, the number of which is determined by the directory number of the desired line. each of these interruptions being very brief and the closure therebetwcen being also very brief. The durations of the interruptions and closures respectively, are such that relay 103 responds and relay 10% does not respcnd. mitted to release its armature for each circuit interruption, opening the front contact but not afiecting relay l0-l and closing its back contact which closes in successive closures, the circuit extending from earth through back contact 103, front contact 1.0-1, helix of 105. vertical magnet 100. side switch arm 10? and battery to earth. ltelay 105 is so constructed mechanically that it attract. its armature upon rholirst ot these impulses but does not release it between. successive im ohms each 'lor windings 20 and 2,000 ohms 1 each for windings 20. such resistances in the relay 20, ance of winding; may be 50 ohms.

In connection with g the reststbalance of resistances, turns and potentials 1 however shall be such not. operate armature 4 when urrent through windings by current through windings 20, but shall traversed by that winding 15 shall 1 unassociattai operate its armature to close the contact be t tween springs 20 and ll) when current from battery B flows through windingsQG and 23" jointly and thence through winding 15. a call. lhereliirc. the

subscriber at suhstationx'li closes his line at the switchhook and by dial interrupts thetline in series of impulses at 33). The closing of the line operates the trip magnet ll, grounds the conductor at 27, and closes all the contacts 30, 51,

A description. of the line switching de vice whose parts are shown at 24-, 4-2, 50, 51, 52 and will be found in the ll'csfm-n Electrician of January 11th. lt tl and 25th. 1908. Relay 40 now is energized by current from battery B through 40 to ground at 52. Trip magnet 24 thus is cut oli' from the line,

means of the usual l s l l l l l l l pulsesj however. it releases its armature alter the cessation of the last impulse. Vertical magnet 100 has responded to each impulse and has ett'ected the moving of selecting switch brushes or wipers 108, 108', 106', as required in systems of the general type described in the 'iublication above re'ferred to. By the attraction ol armature ot relay 105 circuit was closed from earth through that armature, throughhelix in the private magnet 1,09 and through battery to earth, energizing private magnet 10$). during the series of impulses and deenergizingr itafter the seri s and after the release of relay 105. The dee iergization of private magnet 109 moves all side switch levers to the middle position. In this position relay 103 is held energized overthe line circuit, holding relay 1.0% energized also. A circuit is established from battery through switch arm 107, .rotary magnet 110 and interrupter 11.1, be-

By the device 39 relay 1,03 pern'inning the' rotation of h'rush s 108, 108,

108". When the first set of waiting trunk contacts is engaged, circuit is closed, it the trunk be busy, trom battery through private magnet 109 of the first selector F, switch arm 112, wiper 10S, contact of relay 10+ otthe seeo-nd selector b of the busy trunk.

it} pulses caused by the breaking of contact 3, at the substation now operate relay 26 of permanent magnetism of the metering deends of armature 4 and for the carriage 6, a strong current ing 16 is required. finding. 15 operates tracting' the lower end battery B through of relay 114 of the connector C in Fig. 6, switch arm 115, upper winding of relay 116, conductor 117, through contact and army, ture of front bridging relay 2% to earth, energizing private magnet 109. This energization of private magnet 109 continues so long as busy trunks are passed over by the wiper 108" but as soon as an idle trunk is found, relay 104 of thgse'lector of that trunk being released, the circuit-of 109 is discontinued, and by the release of magnet 109 the side switch arms of the first selector F are advanced to the third position, that being the position shown in the drawing. By .the advancement of the side switch arms to the third position, relay 103 of the second connector S is energized and relay 104 also, continuing the energization of release magnet 104 of the first selector F through the circuit from battery, helix of. 10% of F, switch arm 112, brush 08","ar1nature of relay 101 of second selector S, switch arm 113 to its first contact, and through supervisory relay 118 to earth. The two relays 104 of F and 104: of S are in multiple in this circuit. The second selector S is controlled in identically the same manner by a second series of breaks at'the controlling device 39, and connection is established thus from substation 22 to connector C of Fig. 6. The

the connector and bymechanism which is disclosed. in the publicationabove referred! to, the connector responds to such impulses by moving its line iipers to find the called line. 7

When the called line has been rung upon inv the usual Way and the subscriber responds at substation 23, the relay 29 is energized. The closing of contacts 33 and 33 places the windings 26' iii-shunt with the windings 26 in' relay 26, and as a conse quence of this shunting an increased volume of current flows tothe substation 22 through the relay winding 15. This permits to fioW through 15 the. strongest current which can flow through that winding but to strengthen any current is not sulficient to overcome the vice, and is sutficient only, to attract one or the other of the ends of the armature 1, operating at the sametime to repel the remaining end; for'the attractionot both movement of through windarmatureit and closes contact 20-19 by atof armature 4,, the direction of the current, from plus pole of 21', 15, 21, in the order mentioned, being proper vto'causeiithe attraction of that end of armature 4. This movement of the armature 'does'two things Spring 20 makes contact with spring 19 and r arm 2 oi counter 1 is advanced from position 0 to positlona because of the rocking of armature 4 upon its pivot 7. Armature 4 is pivoted at 7 on carriage 6, which carriage is pivoted at 8 upon frame 9. The carriage 6 normally is held in position against adjustable stop 10 on frame 9 by tension of spring 12 which is attached adjustably to post 11. The ampere turns of Winding 15 are insufhcient to move carriage 6 against the tension of the spring 12, but the closing of the circuit through winding 16 (the circuit is B, 25, 16, 20, 19, 28, 27, earth) increases the magnetic flux to such an extent as to cause both cores to attract the armature 4, and to cause carriage 6 toswing on the pivot 8. The movement of the carriage 6 thus permits armature 4: to advance until it is in contact with both cores of the magnet; the counter arm 2 thus is advanced through link 3 from position a to position Z). The mechanism of the counter 1 is such as to register one additional unit on its countin-g train by the movement of arm 2-f ron1 position a to position Z2 and a registration thus is made upon the connection h re considered. Further, as carriage 6 permits armature 4 to advance, I the inclined surface of spring 20 and lifts. springs 20 and 18, causing spring 18 to rise and make contact with spring 17, thus shortcircuiting line winding 15; spring 20 maintains contact with spring 19 and the relay thus remainslocked and the line winding remains short circuited throughout the ensuing conversation.

The conversation having been finished, the hanging up of the receiver at substation 22 opens the. line circuit, releasing relay 26 of the connector. In the usual way, through contact not shown in Fig. 3, the connector releases and returns to its normal position. In so doing a ground is placed on conductor 41, "energizing release magnet 42. This magnet is the usual one of individual line switches in standard automatic systems audits oflice 'is to restore the individual line switch to normal condition, opening contacts 50, 51, 52, 53 and contact 27. As 27 opens, the magnets 0t Fig. 1 are no longer energized by either of their Windings and so the armature -"isrelea'sed and the block 5 acts upon returns to its normaltondition and position.

of idleness as slio wn 1rAFigr1,-the counter arm 2 returning froni ffposition b to positionc. i

the branches of the line leading to multi- The conductors 60i12lljld 01 -are-respectively I pled connector contacts;and'itisoverthem that. terminating calls are madeto substation 22. The conductor 62 Willbe grounded call andsowill opersuch a terminating ate the. relay .40, 'thus removing the #tr magnet 24: and the ground at ba'tteryj B, t the line while such ater ,call' ls n either of said cbres to attract one of the v ends of said armature and the other of said its two ends opposite the said two cores rev spectively; tw'o windings, each common to fat.

both of said cores; a polarized permanent magnet; circuits and apparatus for causing either of said cores to attract one of the ends of said armature and the other of said cores to repel the other end of said armature; a. circuit for causing the other of said windings to cause both of said cores to attract both ends of said armature simultaneously, said circuit-being closed by the movement of the armature resultant upon the attraction oi one only. of its ends; a yielding pivotal suspension for said armature whereby both ends of said armature may be brought nearer to, both of said cores; and a. counting train associated with said armature and operable thereby, substantially as described.

3. In a telephone-meter, a counting train an armature controlling said counting train; a movable carriage upon which said armature is pivotally sustained; two cores forsaid armature; means for causing one of said cores to attract oneend' of said armature; andmeans associated with said armature for closin a circuit whereb the rem'ainin coreg .V Q

will be caused to attract the remaining end of said armature whereby the movement of saidarmature and carriage will result, substantially as described.

4. In a telephone meter, a counting train an'armature controlling said counting train; a movabie carriage upon which said armature is pivotally sustained; two cores for saidarmature; means for causing one of said i cores to'attr act one end of said armature; means associated with said armature for closing a circuit whereby the remaining core -Will be caused to attract the remaining end of said armature whereby the movement-of said armature and carriage will result; and an electrical switch disabling said. first means upon the operation of said second means, substantially as described.

5. In a telephone meter, a counting train a pivoted armature controlling said counting train; a carriage sustaining said. armature pivotally, said. armature being free to move pivotally without moving said carriage and being free to move with its pivot by moving said carriage against its retracting spring; a'pair of electrical contact springs associatedv with saidarmature and adapted to, be closed by the movement of said armasubstantially as described.

6. In a telephone meter, an armature; a.

movable carriage upon whichsaid armature is pivotally sustained; two cores for saidarmature; means for causing one of said cores to attract one end of said armature; a circuitcontrolling the attraction of the remaining end of said armature; means associated with said armature for closing said circuit; whereby the remaining core will be caused to attract the remaining end-of said armature whereby the movement ofsaid armature and carriage will result; a countg ing train; a driving pawl for. said counting train and controlled by said armature; the.

movement of the armature upon its pivot iii .l

response to the attraction of said first men tioned core resulting" in;the engagement-of the next ratchet tooth by said pawl and the movement of said armature in response to the subsequent attraction of the second men-v tioned core and during'the continuance oi resulting in the driving of said counting train by said pawl over a unit step of said counting train, substantially as described.

7 In a telephone meter, a' counting train a pivoted armature foit'operating said train;

a carriage sustaining said armature pivot ally, said armature being free to move pivotally without moving said carriage and being free to move with carriage against its retracting spring; a pair of electrical contact s rings associatedwith said armature and'a the movement of said armature upon its pivot; and a second pair of electrical contact springs associated with said armature and adapted to be closed by a movement of said armature with its pivot; a winding for mo v ing said armature pivotall a winding for moving said armature an carriage; a circuit including said second winding and said first pair of contact springs whereby the energization of said first winding will result in the energizationof said second winding;

and a circuit including said first winding and said second pair of contact springs whereby the energiation of said second winding will result in the denergization of said first winding, substantially as described.

8. In a telephone meter, a counting ratchet said pawl; two magnet cores adapted to attract the ends of said armature respectively,

itspivot by moving saidv apted to be closed by the attraction of said first mentioned-core,-

.a driving pawl; a permanent magnet, an armature pivotally sustained in the field of said permanent magnet and controlling noamaao an attraction by one of said cores resulting in the movement of said pawl to engage the next tooth of'said ratchet, and an attraction by the other of said cores the first attracted end of armature continuing in an attracted position, resulting in the movement. of said pawl in the other direction, substantially as described.

9. Ina telephone meter. a counting ratchet a driving pawl: an ari'nature pivotall v sustained in the field of a permanentmagnet and controlling said pawl; two magnet cores adapted to att act the ends of said armature respectively, an attraction by one of said cores resulting in the movement of said pawl to engage the next tooth of said ratchet. and an attraction by the other of said cores the first attracted end of said armature continuing in an attractedposition, resulting in the movement of said pawl in the other direction. a winding energizing said cores and included in a tele hone circuit, and detcnv miningthe end 0 said armature attracted dependently upon in the telephone line, scribed.

it). In a telephone meter, a counting ratchet driving pawlnormally positioned between two teeth of said ratchet; a permanent magnet; an armature pivotally sus-- tained in the field of said permanent magnet and controlling said-pawl; an electromagnet acting in conjunction with said permanent magnet to control the preliminary movement of said pawl; said electromagnet acting independently of said permanent magnetto determine the ultimate position of said lriving pawl, substantially as described.

11. In a telephone meter, a counting ratchet a driving pawl, normally positioned between two teeth of said ratchet; a permanent magnet; an armature pivotally sustained in the field of said permanent magnet and controlling said pawl; an electromagnct acting in conjunction with said permanent.

magnet to control the preliminary movement of said pawl; said electromagnct acting independently of said permanent magnet: to determine the ultimate position of said driving pawl, said. elect-romag nct comprising in part a winding included in a telephone circuit, and determining the attracted armature end dependently upon the direction of current in the telephone line. substantially descriliied- 12. in a telephone meter. a counting ratchet a driving' pawl normally positioned l)0- tween two teeth of said ratchet; a permaneut magn t; an armature pivotall'y sustaincd in the [ie'l'd of said pcrnmncnt mag-- net and controlling said pawl; an electro; magnet controlling said armature in conjunction with said permanent magnet to control the preliminary movement of said pawl: said clectromagnet controlling said the direction of current; substantially as de armature independently of said permanent magnet to determine the ultimate position of said driving pawl substantially as described.

13. In a telephone meter. a counting ratchet; a driving pawl normally positioned between two teeth of said ratchet. and adapted to move prelin'iinarilv to engage the last engaged ratchet tooth or the next ratchet tooth; a permanent magnet: an an mature pivotallv sustained in the field of said permanentinafrnet and controlling said pawl; an electromagnct controlling said armature in conjunction with said permanent magnet to control the preliminar; movement of said pawl said eloctromaguet controlling said armature independentlv of said permanent magnet to determine the ultimate position of said driving pawl. sullstantially as described.

It. In a telephone meter. a counting ratchet; an armature having four posi ions. viz.. (1st) a normal position oi rest. (Quill an intermediate position. (3rd) an \llerna tire intermediate position, (4th) an ultimate position of attraction: means for m ving said armature from its first to its second and then to its fourth position. tr alternatively from its firstto its third and then to [its fourth position; and means For operating said counting train when said armature moves from its third to its fourth position. substantially as described.

15. In a telephone meter. a counting ratchet and a pawl thtu'et'or means for moiing said pawl into an ultimate position. and electromagnetic means for determining the operative connecticn between said pawl and said ratchet during said ultimate movement.

16. in a telephone motor. a counting: "atchet and a pawl therefor. means for moving said pawl into an ultimate position and electromagnetic means for determining the operative connection between said pawl and said ratchet during said ultima'e movement. said electromagnetic means being rendered operative by the response of the called line in the then existing comicction, substantially as described.

1?. in a. telephone meter. a regis ering do vice. a pivoted armature carriage; an armature pivoted upon said carriage and controh line; said registering device; a pair of elecfro-magnets attracting the ends o'l' said armature alter ati v to move said armature upon said carriage, and attracting: v aid air-- mature simultanemislv to move said carriage and armature, substantially as described.

1S. In a telephone meter. a pivoted armature carriage; an armature pivo 'cd upon said carriage: a pair oi" eloctromagm ts at t'racting the ends-z ol said armature alternativelv to move said armature upon said carriage. and attra ting: said armanrc simul taneously to move aid carriage and armor taneously to move-said carriage and armature; a counting train; a pawl for said train and driven by said armature, said pawl resting normally between two ratchet teeth of said train and moving toward the last engaged tooth or toward the next tooth, dependently upon the direction of movement of the armature upon its carriage, and driven to its ultimate ratchet-driving position by the movement .of said armature jointly with said carriage, substantially as described.

20. In a telephone meter, a pivoted arn1ature carriage; an armature pi-voted upon said carriage; a pair of electromagnet-s at tracting the ends of said armature alternatively to move said armature upon said car- I riage, and attracting said armature simultaneously to move said carriage and armature; a counting train; a pawl for said train and driven by said armature;- said pawl resting normally between two uatchet teeth of said train and moving toward the last engaged tooth or toward the next tooth, dependently upon the direction of movement of the armature ,upon its carriage, and driven to its ultimate ratchet-driving position by the movement of said armature jointly with said carriage; a Winding upon said cores; a contact controlled to be Closed by said armature in its movement in either direction upon said carriage; a circuit including said Winding and said contact and adapted to move said armature and carriage whereby said armature and carriage move and said pawl is driven to its ultimate positlon consequent upon an initial movement of said armature in either of its two alter native directions upon its pivot on said carriage, substantially described. v 21. In a telephone meter, a pivoted armature carriage; an armature pivoted upon said carriage; a pair of electromagnets attracting the ends of said armature alternatively to move said armature upon said carriage, and attracting said armature simultaneously to move saidcarriage and armature; a counting train; a pawl for said train and driven by said armature said pawl resting normally between two ratchet teeth of said train and moving toward the last engaged tooth or toward the next tooth, dependently upon the direction of movement of the armature upon its carriage and driven to its ultimate ratchet-driving position by the movement of said armature t'ure carri age;

said armature in either of its two alternative directions upon its pivot on said carriage; a second winding upon said cores and controlling the initial movement 'of said armature,substantially as described.

22. In a telephone meter, a pivoted armature carriage; an armature pivoted upon said carriage; a pair of electromagnets attracting the ends of said armature alter natively tomove said armature upon said carriage, and attracting said armature simultaneously to move said carriage and armature a counting train; a pawl-tor said train and driven by said armature, said pawl resting normally between two ratchet teeth of said train and moving toward the last engaged tooth or toward the next tooth, dependently upon the direction of movement of the, armature upon its carriage, and driven to its ultimate ratchet-driving position by the movement of said armature jqintly-with said carriage; a winding upon said cores; a contact controlled to be closed by said armature in its movement in either direction upon said carriage; a circuit including said winding and said contact and adapted I. to move said armature and carriage whereby said armature and carriage move and said pawl .is driven to its ulti mate position consequent upon an initial movement of said armaturein either of its two alternative directions upon'its pivot on' -said.carriage; a second winding upon said cores and controlling the initial movement of said armature; a permanent magnet whose field influences said armature and cores to determine the direction of the initial movement of said armature 'by the direction of current through said second "winding, substantially as described.

23. In a telephone meter, a pivoted armaan armature pivoted upon said carriage; a pair of electromagnets attracting the ends of said armature alternatively to move said armature upon said carriage, and attracting said armature simultaneously to move said carriage and armature; a counting train; a pawl for said train and driven by said armature, said pawl resting normally between two ratchet teeth of said train and moving toward the last engaged tooth or toward the next tooth, dependently upon the direction of movement of the armature upon its ear rings, and driven to its ultimate ratchetdriving position by the movement of said izo .1 ture carriage;

armature jointly with said carriage; a windupon said cores; :1 contact controlled to be closed by said armature in its movement in either direction upon said cur-rings; circuit including said winding and said con tact and adapted to move said armature and whose field influences said armature end-- cores todeterniine the direction of the initial movement of said armature by the direction of currentthrough said second Winding; an electrical switch controlled by said armature and carriage when moving together and operating to discontinue the current through said second winding; substantially as de= scribed. v I

1%. Inc telephone meter, s pivoted armoture carriage; an armature pivoted upon said carriage; 21 pair of electromcgnets attracting the ends of said armature ulternatively to move said armature upon said carriage, and attracting said armature simultaneously to move said carriage and armature e counting train; a pawl for'said train an driven by said armziture, said pawl resting normally between two ratchet teeth of said train and moving-toward the last engaged tooth or toward the next tooth, dependently upon the direction of move;- ment of the armature upon-its'carriageend driven to its ultimate ratchet-driving posi: tion by the movement of said armature c jointlyfwith said carriage; a winding upon said cores; a contact controlled to be closed by said armature in its movement in either direction upon said carriage uv circuit including said winding and said contact snd adopted to move said armature and carriage whereby said varmsture and csrriege move and said pawl is driven to its ultimate position consequent upon an initial movement of? said armature In either of its two alter native directions upon its pivot, on said oarrings; a second winding upon said cores and controlling the initial movement of said armature; a permanent magnet whose field influences said armature and cores to dotermine the direction of too Initial movement of said armature by the direction of current through said second winding; an.

electrical switch controlled by said arma-' ture and carriage when moving together and operating to discontinue the current through said second winding; and disrupting means for the circuit including said first winding,

I. subs} anti ally as described.

In a telephone meter, a pivot-ed armaan armature pivoted upon tion uponsaid carriage; a circuit includug jSfild wlndlng and said contact and adopt to move said armature and carriage, where;

sustained; two electromagnetsfor said armssoid carriage; e peirof electromiignets ettracting the ends of said armature a-liQP-f ,nstively to move said armature upon said carriage," and attracting said armature simultaneously to move said carriage and v armature; a counting train; a pawl for said train and driven by said armature, said pswl resting normally between two ratchet teeth oi said train and moving towurd the lust engaged tooth or toward the next tooth, g

dependently upon the direction of movement of the armature upon its carriage and driven to its ultimate ratchet-driving position by the movement of said armature jointly with said carriage; a winding upon said cores; 0f s contact controlled to be closed by sold armature in its movement-in either direc is byseid armature and carriage move and said pawl is driven to its ultimate position consequent upon an initial movement of said i srncsture in either of its two alternative-die! .rections upon its pivot on said carriage; s, second-winding upon said cores and con- {trolling the initial. movement of said armsture; a permanent magnet whose field i11- ;fiuences said armature and cores to deter mine the direction of the initial movement of sold armature by the direction of current through said second winding an electrical switch controlled by said armature and carrisge'when moving together and operating to discontinue the current through said. second winding; and disrupting means for the c rcuit 1ncluding saidjfirst winding, said disrupt ng means being external to themeter mechanism per 86, substantially "as described.

26. In a telephone meter system, two classes 01" tele hone lines; a counting meter; an armature or said meter; a movable oarrioge upon which said armature is pivotally ture; means for causing one of said electromug'nets to attract a predetermined end of sa d armature, the armature endattracte'd being determined dependently upon the class or telephone line called in the then existing 7 I connection, substantially as described. 27-51151 a telephone meter system, two classes of telephone linesya telephone meter; ail-armature fbrfsdid meter; a movable can riuge upon which said armature is pivotally sustained; two electromagnets for said orma ture; means for causing one of'said electro.- magnets to attract a predetermined end of said armature, thc 'armnture end attracted being determined dependently upon the class of telephone line celled in the then existing connect on; efconnting train forming a part.

of saidine'ter; endfimeens for registering a unit upon said counting train dependently upon the identity of the armature end in1-' tlally attracted, substantially es described;

. n 4., M 11 11c mccr, a, pivo'icd armature; two dcctrcmagnct cores pcsitioncd c0 attract the ends cf said arzlmblrc rcspcctiveiy; means for we (me of s '1 cores to attract one e116; said armaimc and. the second. of said cores E0 1% l arma'iurc; means subsequent)? cpc $3.9 fcr energizing the said seccnri core 600 attract "3 second and of saici armature; the fi tracked cud. of said armature ccniimu an attmcted posifizicn, and ccuiciing tr 1 opczratacl by said PLIIBQYEUIG'WEQH s0 attract sucstantiafly dcscribecip In a ficlcfikonc meter, 11 pivot '4 firms,- turc; two elicctatol'zmgnet acres p d to attract, the ends said 2.12mi w r;

w 1111/013 means fer cncrglzmg cm 01: said Mama 10 00m to attract the armature; an electrical circuit: ccnimlicd by the armature and closed when. the mimsiurc is thus attracted; said circuit when clcs ci operating to energize said rcmzxining ccrc to aflraci; the remaining end of said armature; and a counting train operated bysaicl m'znatmewhen s0 attracted, substantially as riescl'ibed.

31. In a telephone meter, :1 pivoted armctm'c; two e'iactrcmaqnet core ycsiticncd i0 attract the ends said arnmture respectively: means; fm' energizing one of said cares to aitmct one cm} of thc armature and the second core is repel said armature; a electrical circuit controlled by the armature and closed Whcn the armature is thus ab fractcd, said circuit when closed operating to energize sairi second care to attract the seccnd and 03? said sci-mature; anti a counting train. operated by said armaturc when so attracted, substantially as described.

Signed by me at San Francisco, county of San Frunclsco and State 0-1 California, in he presancc of iwo wiinesscs.

GERALD DEAKIN.

Witncsses:

JQHN 1i. 6m 7 LLOYD M/wmvmm.

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