US900053A - Time-controlled mechanism. - Google Patents

Description

M. K. BAUER. TIME OONTROLLED MECHANISM. APPLICATION FILED SEPT. 13, 1907.

Patented Sep t.29,1908.

M. K.- BAUER. TIME CONTROLLED MECHANISM.

APPLIOATION FILED SEPT. 16, 1907.

900,053. Patented Sept. 29, 1908.

3 SHEETS-SHEET Z M. 'K. BAUER.

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APPLIOATIOK FILED-SEPT. 16, 1 907. I 900,053, g Patented Sept. 29, 1908 3 SHEETS-FERRET 3 UNITED STATES PA'lE-NT OFFICE. MATHIAS K. BAUER, or EvANs'ron, ILIJINQIS, ASSIGNOR or ONE-HALF TO JOSEPH HEInznN,

. or GROSS POINT, ILLINoIs.

TIME-commune MECHANISM.

7 Specification of Letters Patent.

Patented. Sept. 29, 1908.

Application filed September 16, 1907. Serial N 0. 393,128.

To all whom it may concern:

Be it known that I, MATHIAS K. BAUEn, a-

citizen of the United Statesan-d a resident of Evanston, 1n the county of Cook and State' of Illinois, have invented certain new and useful Improvements in Time-Controlled Mechane time controlled mechanismsdesigned to p crate automatically at any predetermined period for controlling the operation of another device or mechanism. The mechanism is herein shown as applied to. the valve of a gas burner ina manner to automatically close.

the same at a predetermined period and thus extinguish the light. q

The invention consists in the matters hereinafter more particularly set forth and pointed out in the append-ed claims.

is a view in elevation of a gas lamp showing my improved time controlledmechanism applied thereto. Fig. 2 is an enlarged view in side elevation of the operating mechanism. Fig. 3 is a top plan view thereofwith the casing shown in section. line 44 of Fig. 3. Fig. 5. is a view in end elevation of the operating mechanism. Fig. 6 is a section on line-6+6 of Fig. 2. Fig. 7 is a section on line 77 of Fig. 3, showingthe parts in changed position. Fig. 8 is a view in elevation looking in the direction indicated by the arrow 8 in Fig. 3. view in elevation of the escapement mechanism looking in the direction indicated by the arrow 9 in Fig. 8. Fig. 10 is a view similar to Fig. 2 with some of the parts in changed position, and other parts omitted. Fig. 11 1s a view similar to Fig. 10 with parts in changed position. Fig. 12 is a view In endelevation looking in the direction indicated by the arrow 12 in Fig. 11. .Fig. 13 is a section on line 1313 of Fig. 10. Fig. 14 is a view in perspective of the frame plate with the spring detent arm attached, showing also a device for stopping the clock mechanism upon operation of the valve closing device.

As shown in said drawings, A indicates the burner tube of a gas lamp provided with a 5 5 cut-off valve A The valve embraces a rota- I with a familiar form of crank-handle a Fig. 4 is a section on.

Fig. 9 is a tive valvestem a provided at its outer end A coiled spring a surrounds the valve stem (1 which acts to close and hold the valve closed.

The valve is held open during the period in which it is desired t e burner should operate by a suitable detent which is released from said stem at a predetermined time by a tripping arm operated by said time controlled mechanism. These parts will now be described.

To' theend of the rotative valve stem re- .mote from the handle a is fixed a radial arm .BxWhiCll is enlarged at its outer end and fashioned to interlock with the free end of a curved spring detent arm C. Said detent arm C is fixed at one end to a short vertical arm d of the frame-plate D which is mounted onthecasing of the valve A The detent arm is bent at its free end to form a shoulder o (Figs. 5 and 14) which engages the radial arm B ofthe valve stem to hold the valve 1 This position of the parts is indicated in In the accompanying drawings :Figure 19 the valve stem arm to permit the spring actuated valve to close, said part is made as follows: E designates an arm fixed to a rotative, spring actuated shaft E and is adapted to move in; a circular path in the direction indicated by the arrow in Fig. 7, and to make contact with the end of the detent arm C in a manner to release the same from engagement with the valve stem arm B. A coiled flat spring F is attached at one end to said shaft ,and at its other end to a spring barrel F which is loosely mounted on the shaft E and is held from turning in one direction by a stop-arm f on the barrel which engages one of the rods (1 of the main frame (Fig. 7). Said spring acts to rotate the shaft in the direction indicated by the arrows and to cause the tripping arm E to be brought into contact with the underside of the end of the detent arm C as described. The said shaft E is normally restrained from free rotation in a manner. to prevent the tripping arm to swing under the action of the spring F into contact with the detent arm and thus release the Valve to permit it to close. The means for so restraining the shaft E and arm E and the time controlled mechanism for releasing said parts to permit the tripping arm to release the valve arm will now be described, and are made as follows: G designates a gear-wheel rotatably mounted upon the shaft E at the side of the spring-barrel and provided with a hub g which surrounds said shaft and extends laterally through the frame member D To the outer end of the sleeve is fitted a ratchet wheel H, said ratchet Wheel being shown as provided with a hub h surrounding the gear wheel hub and affixed thereto by a set-screw b 1 designates a radially extending arm which is fixed to the shaft E laterally outside of the ratchet-wheel H. I designates a pawl which is pivoted to the outer end of said arm and is pressed with its toothed end into engagement with the teeth of said ratchet Wheel H by means of a spring e' fixed to said arm and engaged with a pin i extending laterally from one side of the pawl. The gear wheel Gr meshes with a pinion 9 (Fig. 2) which is mounted on a shaft extending between the side members 1) D of the main frame, and said pinion meshes with a large gear-wheel J, constituting the main drive wheel of a train of clock-work. Said clock-train. comprises other gear-wheels not here shown and an escapement mechanism indicated as a whole by the letter J By means of said clocletrain the gear-wheel G and ratchet-wheel H are slowly rotated in the direction indicated by the arrows in Figs. 2, 10 and 11, the pawl I and the arm I following said ratchet wheel under the action of the spring F. K designates a fixed cam disk which is located laterally inside of and parallel to the ratchet-wheel H. Said cam disk is rigidly fixed to the frame member D by a lug 76 which is attached to or made part of the cam disk. A rotative or angularly adj ustable cam disk L is mounted upon the hub h of the ratchet-wheel H at the side of the fixed cam disk K and parallel therewith, (Figs. 4, 6, 10 and 11). Said stationary and angularly adjustable cam disks have curved cam surfaces, the concentric portions of which are struck from the same center so that when the adjustable disk is advanced beyond the stationary disk it has the effect of lengthening the peripheral or active surface of the cam composed of the two cam members, whereby the cam is made adjustable to vary its action on the time controlled releasing pawl 1 A laterally projecting stud carrying a cam roller 7? is arranged at the outer end of the pawl I in such position that at a predete mined point in the travel of the arm I it will ride upon the periphery or active surface of the cam and disengage the pawl from the teeth of the ratchet-wheel H (Fig. 11),

thus allowing the shaft E to be quickly ro-- tated under the influence of the spring .l and causing the tripping arm l to strike the end of the detent arm (l to release it from engagement with the valve stem arm 13. The spring "0 a thereafter acts to close the burner valve.

The bearing roller i" of the pawl is held. out of engagement with the teeth of the ratchet wheel until it rides off of the periphery of the cam, whereupon the spring of the pawl ac ts upon the latter to reengage the pawl with a tooth of the ratchet wheel ll thus arresting the movement of the shaft E and arm it. The position of the adjustable member L of the cam determines the point in the eircumference of the ratchet-wheel ll where the pawl I reengages one of the teeth of said ratchet-wheel, and the distance between said point and the point at which the pawl is disengaged by means of the member K of the cam determines the period of time, as measured by the movement of the clock mechana, which will elapse between successive operations of the devie It is evident that by shifting the position of the adjustable cam member 1i this period of time may be varied at will. For such purpose, the said ealn member is provided with a radially extending arm or lever ll provided at its outer end with a spring detent I which may be placed in engagement with any one of a series of holes I in a locking segment if.

It may be desirable after the operation of the device to arrest the movement of the clock mechanism in order to avoid useless unwinding of the clock spring. For this purpose a rod M is provided, which is bent at its forward end to form a crank-arm m that is attached to the detent arm C and the rear end of said rod is bent to form a crank-arm m arranged to be depressed, when the detent is released from the valve arm B, into contact with a member j of the oscapement mechanism in a manner to arrest the clock movement. The said rod M has a rocking bearing in a standard M carried by the arm. (1 of the frame plate D and the rod partakes of a rocking movement when the detent arm is swung downwardly after its release from the valve stem arm B, so that the crank. portion m thereof comes in contact with the cscapement mechanism member and thereby operates to stop the clock mechanism, in the manner stated.

The spring F may be rcwound. from time 1 to time when necessary either by turning the spring barrel F orthe shaft E. When the spring is to be rewound by turning the shaft E the said shaft may be turned by a key litted to the angular end of the shaft or by 1. grasping the pawl carrying arm 1. and rotating said shaft E in the direction opposite that which it is rotated by the spring. in order that the shaft may be thus reversely rotated without hindrance by engagement of 130 lit) enc ose the tripping arm E with the det'entarm, the said detent arm isformed at its outer or free end with an upwardly inclinedsurface a? so disposed with respect to the path of the trip.- ping arm as to permit the detent armto be swung downwardly by engagement with the tripping arm sufficiently to permit the latter to pass the same. i i

The entire device iscinclosed in a case or housing N provided with a hinged doorN whereby access may be had totlle interior.

I claim as my invention 1. The combination with an oscillating,

spring-actuated part, of time controlled mechanism comprising, in combination with a clock tram, means for locking sa d oscillat- I ing part against the action of its spring, a s ring actuated tripping device for releasing tie locking means, means fornormally'ree straining said spring actuatedtripping device, embracing a rotative pawl and ratchet mechanism, one member of which is driven by the clock train, and means disposed in axial alinement to the axis of rotation of the members of the pawl and ratchet mechans ism for disengaging said membersfrom each other at a redetermi-ned point in the rota- 1 tion thereof to effect therelease of the tripping device. a a i 2. The combination with an oscillating, spring actuated part, of time I controlled mechanism comprising, in combination with a clock train, means for loclgingsaid oscillating part against the action of its spring, a spring actuated tripping. device for releasing said locking means, pawl and ratchet mechanism controlled by the clock train for nor-, mally restraining said spring actuated tripping device, and a cam disposed in jaxial alinement to the axis of oscillation of the pawl for releasing the pawl of the pawl and ratchet mechanism to permit the operation of said tripping device. i

3. The combination with an oscillating, spring actuated part, of time controlled mechanism comprising, in combination with a clock train, means for locking saidoscillating part against the action of its spring, a spring actuated tripping device for releasing said locking means, pawl and ratchetmechanism oontrolledby the clock train for normally restraining said spring actuated tripping device, and a cam disposedin axial alinement to the axis of oscillation of the.

mechanism comprising, in combination with a clock train, means for locking said oscillating part against the action of its spring, a spring actuated rotative tripping device for releasing said locking means, a ratchet Wheel geared to said clock train, an arm rotating with said tripping device and carrying a pawl which engages the teeth of said ratchet wheel, a cam located at the side of said wheel and ada ted for engagement by a bearing on the paw to throw the pawl out of engagement with the teeth of theratchet wheel and to hold it out of engagement therefrom for a predetermined time, said cam thereafter permitting rengagement of the pawl with the ratchet wheel.

5. Thencombination with an oscillating, spring actuated part, of time controlled mechanism comprising, in combination with a clocktrain, means for locking said oscillating part against the action of its spring, a spring actuated, rotative shaft carrying a tripping arm for releasing said locking means,

and means controlling said shaft embracing a ratchet wheel geared to said clock train, an arm fixed to said shaft and carrying a pawl engaging the teeth of said ratchet Wheel, and a cam mounted on said shaft and arranged to disengage said pawl from said ratchet wheel and to hold it out of engagement therefrom to permit said shaft to rotate and the tripping arm to release said rotative part.

6., The combination with an oscillating,

spring actuated part, of time controlled 1 mechanism comprising, in combination with a clock train, means for locking said oscillating part against the action of its spring, a spring actuated. tripping device for releasing said locking means, a ratchet wheel geared to said clocktrain, an arm rotating with said v tripping device and carrying a pawl engaging the teeth of said ratchet wheel, and means for disengaging said pawl from said ratchet wheeljat a predetermined point in its travel and operating to permit reengagement of the pawlwith the ratchet wheel at variably predletermined points in the travel of the aw p 7 The combination with an oscillating,

spring pressed part, of a time controlled engaged by said pawl, and means mounted on said shaft for disengaging said pawl from said ratchet wheel at a predetermined point in its travel and operating to permit reengagement of the pawl with the ratchet wheel at variably predetermined points in thetravel of the pawl.

8. The combination with an oscillating, spring actuated part, of time controlled mechanism comprising, in combination with a clock train, means for locking said oscillating part against the action of its spring, a spring actuated tripping device for releasing said locking means, a ratchet wheel geared to said clock train, an arm rotating with said tripping device and carrying a pawl engaging the teeth of said ratchet wheel, a cam located at the side of said ratchet wheel comprising a stationary and an angularly movable part arranged in overlapping relation, whereby the cam is adjustable, and a bearing on the pawl adapted for engagement with the cam to throw the pawl out of engagement with the ratchet wheel and hold it disengaged therefrom for a predetermined period.

9. A time controlled mechanism comprising, in combination with a clock train, a locking detent, a spring actuated rotative tripping device adapted to release said locking detent, and means for controlling said tripping device embracing a ratchet wheel geared to said clock train, an arm rotating with said tripping device carrying a pawl engaging the teeth of said ratchet wheel, a cam for disengaging the pawl from the ratchet wheel com prising a stationary cam member and an angularly adjustable cam member both having concentric cam surfaces adapted for engagement by a part carried by said pawl for throwing the pawl out of engagement with said ratchet wheel and means for locking the angularly adjustable cam member in adjusted positions.

10. A time controlled mechanism comprising, in combination with a clock train, a locking detent, a spring actuated, rotative shaft, a tripping arm carried by said shaft adapted to release said locking detent and means for controlling said shaft embracing a ratchet wheel concentric with said shaft and geared to said clock train, an arm fixed to the shaft carrying a pawl yieldingly engaging the teeth of said ratchet wheel and a cam concentric with said shaft arranged to disengage said pawl from the ratchet Wheel and to hold it out of engagement therefrom to release the tripping arm shaft.

11. The combination with an oscillating spring actuated part, of time controlled mechanism comprising, in combination with a clock train, means for locking the oscillating part against the action of its spring, and means controlled by the clock train for releasing said locking means and means actuated by the releasing means for stopping the clock train.

12. A time controlled mechanism comprising, in combination with a clock train, a detent arm, a spring actuated tripping device for releasing said detent arm, means for normally restraining said spring actuated tripping device embracing a pawl and ratchet mechanism, one member of which is driven by the clock train, means for releasing one member of the pawl and ratchet device from the other at a predetermined point in the movement thereof, and means actuated by the detent arm for stopping the clock train.

13. A time controlled mechanism comprising, in combination with a clock train, a locking detent, a spring actuated, rotative shaft, a tripping arm carried by said shaft adapted to release said locking detent and means for controlling said shaft, embracing a ratchet wheel geared to said clock train, an arm fixed to the shaft carrying a pawl yieldingly engaging the teeth of said ratchet wheel and a cam arranged to disengage said pawl from the ratchet wheel and to hold it out of engagement therefrom to release the tripping arm shaft, said detent being arranged to permit the said tripping arm shaft to be turned backwardly for the purpose of rewinding the actuating spring of said shaft.

14. 111 a time controlled mechanism, the combination with a clock train and a spring actuated tripping shaft, of means for controlling the shaft embracing a ratchet wheel geared to the clock train, an arm fixed to the shaft carrying a pawl eiwaging the teeth of the ratchet wheel and a cam for disengaging the pawl from the ratchet wheel comprising a stationary and an angularly adj ustablc cam member, both having concentric cam surfaces adapted for engagement by a part carried by the pawl for throwing the pawl out of engagement with the ratchet wheel, and means for locking the angularly adjustable cam member in adjusted positions.

In testimony, that I claim the foregoing as my invention 1 aflix my signature in the presence of two witnesses, this 27th day of August A. D. 1907.

MATHIAS K. BAUER.

Witnesses:

C. CLARENCE POOLE, GEORGE E. WILKINs.

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