USRE15398E - William o leary - Google Patents

Description

w. OLEARYf CLOCK.

APPLICATION FILED APR. 15. 1922.

Reissued July 4, 1922.

% I IINVENTOR.

I i 2 @li Y %4p ATTORNEYS.

UNITED STATES PATENT BELVEDERE COLLEGE, DUBLIN, IRELAND.

WILLIAM OLEARY, '01

Original No. 1,365,537, dated January 11, 1921, Serial No. 276,149, filed for reissue filed April 15, 1922.

To all whom it may concern:

Be it known that I, IVILLIAM OLEARY, a citizen of the Irish Free State, residing at Belvedere College, Dublin, Ireland, have invented a new and useful Clock, of which the following is a specification. 7

My clock is of the known type in which an impulse is timed and given to the pendulum periodically, for example every minute, by means of a roller at the end of a pivoted lever falling on a pallet fixed to the pendulum.

In order that from the outset my invention may be clearly understood I show the principal phases in the operation of this principle in Figure l of the accompanying drawings.

A pallet l is fixed transversely on the pendulum 2. An impulse lever 3 pivoted at 4 has a roller 5 which falls nominally every minute on the pallet, just a little before the pendulum reaches its median or exact minute position. In position I the impulse lever has just been released. In transition from position I to II the roller merely rolls on the pallet. In position II the edge of the pallet has reached the roller, and this latter will roll down along it,'thus giving an im-' pulse to the pendulum. In position III the roller has fallen free of the pendulum, and it will be reset for the next impulse.

My clock is also of known type inasmuch as it embodies a device for letting fall and resetting the impulse lever. And it is alsoof known type inasmuch as it embodies an auxiliary timing clock for correctly timing the release of the impulse lever.

But whereas other timing clocks synchronous with the pendulum orate mechanism operating on their going rate, I neglect all correction of the going rate of my timing clock, and substitute a much simpler method of timing. And whereas timed impulses of the kind I have described have so far been alpplied only to pendulums I apply them aso to balance wheels.

To keep my description clear I refer at first. only to the combination with a pendulum, and I shall suppose that the pendulum beats seconds and that the impulse is to be given every minute, though in practice any are kept by elabconvement period may be chosen.

The principle of my timing devlce is the fol lowing:

Though an ordinary timepiece Specification of Reissued Letters Patent.

OFFICE.

may have an error of several seconds in a few hours, its error in a short run like 59% seconds, though it may vary, will always remain very small. And hence if a device for releasing the impulse lever be constructed in such a way that it starts starting 7 or initial position at the exact minute, and is carried forward by the movement of such a clock to a releasing position in 59 seconds, then every run starting from the initial find the device in the releasing position i second before the next exact minute, within a. very small margin of error. The error of the timepiece may be cumulative, but that of the correctly started release is not.

from a standard position at an exact minute will piece or other suitable timing and driving device. I construct and arrange the release device in such a way that it starts from the standard starting or initial position at the moment of an impulse, and arrives at the releasing position a determined convenient fraction of a second before the next impulse period. The impulse lever is released, the impulse given, and the impulse lever reset as hereinbefore described. At this impulse the release device is restarted from initial position and times the next impulse as before.

To substantially carry is clear that the release device need not necessarily be brought to the starting position at the impulse moment, it might be trued, for example, at the resetting of the impulse lever, or at any other convenient moment, provided it is definitely fixed and closely determined by the impulse moment.

Nor is it strictly necessary, though it may be advisable, that the release device should be started true from the starting or initial position at each and every impulse. It might be trued only when the error in the run had reached a certain magnitude.

In order that my said invention may be understood I append hereunto one sheet of drawings.

Fig. 1 illustrates the known impulse device hereinbefore described.

Fig. 2 shows the arrangement of my timing and impulse device with a pendulum.

Fig. 3 shows the construction and arrangement of my timing clock and impulse out my principle it i End the putsfS zthcl l2 manner'hereinbeloredescribed.) 3 then falls 7 n free. ov ffitlie, penlulum;andy the' crank fll strikes 223' releasing thev cam 9', which rep- 11v, revolves, striking thejeran'k 19, resets 12, thus'raising lllrom the slot, and 7 'clevieeih elevation,

i plan; 4.13; v i

QFigl 4; showsltheconstruction and e rahgement "of a balance! wheelvwith ti lgi fifShOWSqtllB same in plaIi*-* from the balance heel, and resettihgjthe 1 .j-. ;mm ,-;g k cletent the timmg, clo el;v restsu tsf I Alsothe e; m9 "through the Crank raises eli'seleer ly' Capable 01E e" little"iflffretard of the resetting of 12,

timing prineipl hiltinto opetet i i1lg COIl StIllCtlOIl. --lt1s in reset. Eve syth1hg is new reset, and the s e eloelg-ofgiottlinejry design. timing elock'" has started} timing; the'inext zi st jby'e conlrenient impulse' v erb-lm m t i i i i v j jeleasemhiir pulse J I Notes oat-defeats. i -t theqmomeht of re? The pranks on the impulse lever are so fatnclr lease mam. clesignegl that they mak -m contacts with release positio atthe otherflp'erts {h ring the pe xiodl'from the ire- (1' make each ru q n pelichlhimfl'lhis is a lmowh method-of sef' 8'5."-

01' o ftlie The euringa simple gravity impulse. Theobject tup totime and" of the severing pawl 11 is ltowp'i-event 14 eh "mpulse'; I fallii g heckvihto the slot Twheii 12 is reset; h P se o my: invention The pins lfi are need in su-eh a position 3 heelsjonly (if the eloek, thet on release the belancefwheel will have edohltheexleof thel seeov ndsv it good reliable starting swing. v 5

"volvingnomihally lf thehalaneewheel is moving elo'ckwise 1106 wheel. 1 Theeam on the "l2 either the. pins, 16 clutch, ate-twin,oi-iwheels, 1501* tl e pinsv flick pest and chiteh on e. n opemtio b The'qvheel' I the return, Gonveiisely l' the, movement 15 t 111' it i 'i' A ispringed enticloekvvise. The arrangement offone e 'it1 1 ,the wheel, ,ordi; pawl and one pin: only will Work, but 14;

, it and p ojects eilittle thehlieq ii 'es careful, acl-justmentffiyusing thev 1111,; lever: 12 pivoted double p mvls. several give egootl flat, trensverse pin; l llwhlGll: xiie-rgin i' o rreghlerityin the amplitude of e we ht offthe l6V1T '011;-th6; ,theswing otthe baleiieeyl heel, pick up gt he entlfoll2ere=light more fmoi ahle, position, and prevent undue gtwith vfreed o ni in shock totl iehem ings of the wheel; i

far; as I know timing clocks have a eet'iat suitable j 'positions encleonsequently were notapplicehle to seatm sverselpins 1 6i and: 24. 'springed clev going halance wheel clocks; Butmy timing tent 17; forcliniarily supports; 321s shown. :The clock may he a balance Wheel eloelgend there- 7 eeml-9t operates on the QELTaIlkSy 19 end 20. fore]; apply it not only to timing impulses to v lock operates} the knoxvn pen balance wheels.v An cl" furthermore, as far *chilgumar-lengemem The halan'eevvheel ar as, know, 1am thelfirst to useeny. "timing ngement [will qthe beqclearly understood; device forktiming such impulseslto balance timihggoloek hevingbeen' lg'egiilz ted to wheels, and the'refo'rel no iv claim the use i 'cl'. ,7 moves around; until p0 ,Suchetlevice might be alight eountedge 05E 1'1 meets thepin 1'45. ing Wheel} moved} by the oscillation of "the t {k until; th

J l press 'uml rvth 1p (SE-gages "on "f the; 9

Wheel, th stopping th e slotv 10 moves helane ewheel, and; thustlming, impulses as \16T1"12 allsfehcltlifi,en in someplcletpeeclulum models; v

v timing eloeky (I in vconrihinzttion with my v ,7 I timing" clock, as vreter,laterrte i:t hei;-itss.- fthe double-sets hereunder. v i

p of pavfls aml pins.) eAt-ithe seme time 1 7 use enyconvenientclesign of timing 1 lqas fallen CELO JEL Under 18 ,311 01 35 has been olo oll i hereittbefol clesei ibecl, Fig. lfshoivs 60 released. "I shallsiippose that the pendulum in elevation, and FL?!- 5511 Pl n he construe? K hasfmeanvvhile beenvhelclijin position jIiFigjftion and arrangement,of thehnlancewheel 1, so that 5'as' now listllen oh 11. At the and impulselever i Q i i pirop'eirtimethej penchihim islet-loll, so that is the balance wheelonits shaft 26.

6 itmaiy'i -eaehpositionILFig 1 at the exact Any suitable mounting; ast-t 'ie'tionlessgas 55 min uteend it receives the impulse in the possible, may be used, For instance 26 is 13- ion in methy ays. so that 18' flicks the cletent 17 end: is safely 7 5 weyspstait lease of the lever until-jtfalls free of the we I a, e e wheel 8, beneath. From; hitherto heensynehro'nizecl pendulum cloeks f1'05 I 4 5 elearnessqlhdeseniloe how my; p enclulumsybut.also 111eusimilzwmannei to lQIitfIfaOtiQILQf second oif'eh'y convenient filming device 01 thispurnfthe balance 31,1 fcoiistriiet and ei i'a ge ii lielancewheel 15,398 i v p B Suspended vertically from a thin steel wire 4. In a clock having an oscillating mem- 27. Needle centers 28, 28, with vertical 'freeber and a device for imparting periodic imdom only, engagethecups in the shaft 26 pulses to said-oscillating member, in comwith only the pressure suitable to keep the bination, a release device for controlling the wheel running true. This can be done either periodic functioning of the impulse device, by adjustable springed lever or in any suitmeans for placing the release device ahead able Way. A crank 29 on the shaft carries, of the oscillating member at the end of each 'the impulse pallet l. 3 isthe impulse lever impulse period, and means controlled by the Withits roller. The timing clock and release oscillating member for starting the said 're-' 10 devices are not shown, as they have been lease device from astandar'd position at the fully described. The hair spring of the bal beginning of each impulse period. ance wheel is suitably arranged. Any suit-' 5. In a clock having an oscillating memable period may be chosen for balance Wheel her and a device for imparting periodicim-' and impulse. I preferably make my balance pulses to said oscillating member, in com- 15 Wheel rather heavy to give it Weight and bination, an independent timing mechanism, momentum comparable to those of pendua release device for controllingthe periodic lumssimilarly used. functioning of the impulse'device, means The method of operation needs no descripcontrolled 'by the timing mechanism for tion'as it is plainly similar to the case of placing the release device ahead of the oscil-' 20 the pendulum hereinbefore'described, lating member at the end of each impulse In order to minimize shock to the bearings period, and-means controlled bythe oscillatof the balance Wheel when at sea it maybe ing member for starting the said release deadvisable to make the suspension point of vice from a standard position'at the beginthe gimbal suspension system coincide With ning ofeac'h impulse'period.

25 the upper point of suspension of the wire 27, 6. Ina clock having'anl-oscillating mempension the same as that of the balance wheel bination, an independent timing mechanism about a'horizontal axis through its upper for controlling the periodic functioning of 30 point of suspension. 4 said impulse device, and'means [controlled I laimby thejoscillating member for eliminating 1. In a clock having an oscillatingmemthe error in the timingmechanism at the beber and a devicev for imparting periodic in1 ginning of each impulse period. i pulses to said os'cillati'g member, in com 7. In a clock having an o '35 bination, an independent timing mechanism, ber and a device for imparting periodic ima release device controlled by said timing pulses to said oscillating member, incommechanism for controlling the periodic funcbina ion, an independent timing mechanism tionin of the said impulse device, and means for controlling the periodic functioning'of contro led by the oscillating member for the impulse device and regulated to run 40 starting the said release device from a stand ahead of the oscillating memberduring each ard position at the beginning of each im- Impulse period, and means controlled by the pulse period. oscillating member for eliminating the er- QPI-na clock having an oscillating mem ror in'the timing mechanism atthe beginber and a device for imparting periodic inimug of each impulse period. 1 1 45 pulses to said oscillating member, in coin- In a Clock having all Oscillating Inembination, an independent timing mechanism beiand a device for imparting periodic 50 in the said timing mechanism from astandmechanism for controlling the periodic 5 position at the beginning of eachim functioning of the said impulse'device, and 1 means controlled by the oscillating member In a clock having an oscillating memfor starting the said release device and said her, and a device for imparting periodic timing mechanism from standard positions 56 pulses to said oscillating member, in .comatjthe beginning of each impulse period. I bination, an independent timing Ineeha- 9. In a clock having an oscillating memnism', a release device for releasingthe imher and a device for imparting aoeriodic pulse device at periodic intervals, said reimpulses to said osgillating member, in comle ase device being controlled by the said timbination, an independent timing mechanism,

'60 ing mechanism and regulated to run ahead a release device controlled by said timing of the oscillating member during each immechanism for controlling the periodic pulse period, and means controlled by the functioning of the said impulse device, and

' oscillating member for starting the release means controlled by the oscillating member device from a standard starting position at for starting the said release device from a 65 the beginning of each impulse period. standard position and eliminating the error ping the independent clock mechanism, and means operative When the said auxiliary lever is permitted to drop for resetting the said auxiliary lever and also the said impulse lever and at the same time permitting the independent clock mechanism to start again.

18. An automatic regulating mechanism for clocks comprising in combination With a pendulum, a stop on the said pendulum hav ing an inclined surface at one end thereof, an impulse lever pivotally mounted at one end, the other end of the said impulse lever and adapted When the impulse lever is released to strike the said stop and roll over the inclined surface at the end thereof to impart an impulse to the said pendulum, an independent clock mechanism including a second Wheel, an auxiliary lever normally maintained in position by the sec- 0nd Wheel and adapted to normally maintain the said impulse lever in a set position, means associated With the said second Wheel for permittin the auxiliary lever'to drop at predetermined intervals to release the impulse lever in order to impart an impulse to the pendulum at said intervals, thereby stopping the independent clock mechanism, a cam device operated by the independent clock mechanism, means for releasing the cam device when the said impulse lever is and arms associated With contact therewith in order to reset the said auxiliary lever and the impulse lever and thereby permit the independent clock mechanism to become operative again.

In testimony whereof I afiix my signature.

WILLIAM OLEARY.

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