US1802334A - Electric clock - Google Patents

Description

`April 28, 1931. E CARLSQN 1,802,334

ELECTRIC CLOCK Filled June 5. 1929 Patented Apr. 28, 1931 UNITED STATES PATENT OFFICE ELOF L. CARLSON, OF BRISTOL, CONNECTICUT, ASSIGNOR T THE E. INGRAHAM CO., OF

` BRISTOL, CONNECTICUT, A CORPORATION ELECTRIC CLOCK Application filed June 5, 1929. Serial No. 368,505.

This invention relates to improvement in electric clocks of the type in which the driving-spring is periodically and automatically energized and relates in particular to the means employed for controlling the closing of the circuit to effect such energization. Y The object of my invention is to provide an electric clock of the type described with simple reliable and effective means for causing the contacts to close with great rapidity so that arcing is minimized.

With the above and other objects in view, my invention consists in an electric clock Vhaving certain details of construction and A combinations of parts as will be hereinafter described and particularly recited in the claims. Y

In the accompanying drawings:

. Fig. 1 is a view in rear elevation ofthe driving-mechanism of an electric clock equipped with my improved circuit-controlling mechn anism, the parts being shown in the positions Y due themwhen the contacts are in engagement for energizing the magnet; Fig. 2 is a V.view thereof in side-edge elevation; j

Fig. 3 is a top or plan view thereof;

Fig. 4 is a view `corresponding to Fig. 1

but showing the parts in the positions due them prior to the closing of the circuit;

Fig. 5 is a detached perspective view of Athe contact-controlling latch; and

Fig. 6 is a corresponding view of the operating-lever.

In carrying out my invention as herein shown, I employa substantially L-shaped operating-lever 1() folded from sheet-metal and having two arms 11 and 12 disposed at right angles with respect to each other. For the purpose of mounting the-operating-lever 10with capacity for oscillating movement I v'fold outward from its inner and outer edges two supporting- ears 13 and 14 respectively, both `of which are perforated as clearly shown 45 Vin Fig; 6,v for the reception of a stud 15 projecting rearward from a disk-like assemblyplate 16. The inner ear 13 bears against a spacing-washer- 17 kinterposed between the sameiand the assembly-plate 16, while the '50 outer 'earl/1 bears against a retaining-collar 18 mounted upon the rear end of the stud 15 and held in place thereon by means of a bent pin 19. n

The operating-lever 10 is preferably made of iron or other magnetic material and has its arm 11 extended adjacent the pole-piece 20 of the core 21 of an electro-magnet which is generally designated by the numeral 22. The end of the core 21 opposite to the polepiece 2O has secured to it at a right angle a core-extension 23 made of iron or other magnetic material and having its outer end forming the other pole-piece 24A of the electromagnet 22.

The arm 12 of the operating-lever 1() has securedv to it by means of a rivet 25 a contactarm 26, which is preferably made of spring steel so as to be both resilient and capable of attraction by the pole-piece 24 of the electromagnet.

The inner edge of the arm 12 of the operating-lever 10 is formed with an offsetting-ear 27 projecting forwardly through a clearanceopening 28 in the assembly-plate 16 and has pivotally secured to it by means of a rivet 29 a driving-pawl 30, the free end of which engages the teeth of a ratchet-wheel 31 which is connected in any approved manner to the time-train (not shown) of the electric clock so as to eect the driving thereof under the urge of a helical driving-spring 32. The said spring has one end engaged with an offsetting-finger 33 of the pawl 30 and its opposite end hooked over a stud 34 projecting forward from the assembly-plate 16. The said driving-spring 32 exerts a constant effort to swing the lever 10 in a clockwise direction, as shown in Figs. 1 and 2, and therefore through the pawl 30 to rotate the ratchet-wheel 31 in the same direction.

Near its free end the contact-arm 26 has secured to it a contact-member 35 which is adapted to co-act with a normally-stationary complementary Contact 36 mounted at the end of a contact-arm 37 secured to one of the two complementary fiber end-plates 38 38 of the electro-magnet 22. One end 39 of the coil of the electro-magnet is soldered to the contactarm 37 and the-other end 10 of the coil of the said electro-magnet is soldered to a terminal piece 4l mounted upon the fiber end-plate 38 of the magnet and is adapted to be engaged by any suitable contact-member mounted in the clock-case (not shown).

For the purpose of preventing the contact 35 from engaging the contact 36 until such time as the operating-lever 10 has swung nearly to the limit of its movement in a clockwise direction by the driving-spring 32, I employ a sheet-metal latch-member 42" having a. pair of perforated ears 43-43 offsetting from the opposite edges of one of its ends and sleeved over a stud 44 projecting rearward from the assembly-plate l6. y The free end of the latch 42 is formed with a detent-inger 45 normally lying in the path of the free end of t-he flexible contact-arm 26 so as to prevent the initial clockwise movement or" the vsame with the operating-lever 10.

Forthe purpose of swinging the detentnger 45 of the latch 42 out of the path of the contact-arm 26 when the operating-lever l0 reaches approximately the limit of its clockwise travelunder the urge of the drivingspring 32, I provide the said latch with an outwardly-curved cam-linger 46 which is engagedl by a reversely-curved cam-finger 47 forming an extension of the arm l2 of the said operating-lever 10.-

Encircling the stud 14 and exerting a constant effort to swing the latch 42 in a direction .tointerpose its detent-iinger 45 in the path of thecontact-arm 26 is a helical torsion-spring 48 having one arm 49 resting against the outer face of the latch 42 and its other arm 50 resting against the adjacent edge of the, coreextension 23.

lVith ythe parts in the positions shown in Fig, l, the magnet 22 will be energized by current flowing from any appropriate terminal in the casethrough the terminal-piece 4l into the end oi' the coil 40, thence through the coil proper and out through the end 39, through the` contact-arm 37, contact 36, contact 35, contactarm26 and thence back to the source of electrical energy through the operatinglever l() and assembly-plate 16 which forms a l ground.

As soon as the magnet is energized to a .sufiic-ient rdegree it will 4cause its pole-piece 2O to attract the armature-arm llv of the operating-leverv and hence swing the latter counter-clockwise with the e'lect of disengaging the contact .85 from the stationary contact 36 and causing the pawl 30 to ratchet back over the teeth of the ratchet-wheel 3l and secure a fresh grip thereon, and at thesame time stretch andre-energize `the driving-spring 32. l/Vhen the operating-lever l0 has been-swung counter-clockwise by the action of the electromagnet as described, it will swing the end of the contact-arm 26 outward beyond the end of the detent-inger 45 of the latch l2-,and permit Y,the latter, under the urge of the torsionspringi48, to swing counter-.clockwise and interpose the detent-linger 45 in the path of the contact-arm 26, as shown in Fig. 4 of the drawings. The parts will now occupy the positions shown in Fig. 4.

With the circuit broken and the drivingspring 32 energized as just above described, the latter will act to swing the operatinglever l0 clockwise as the clock-movement (not shown) driven by the ratchet-wheel 3l slowly yields under the control of its escapement. As the operating-lever 10 swings clockwise, as just described, it will tend to move the contact-arm 26 so as to engage its Contact 35 with the stationary-contact 36, but owing to the interposition of the detentinger 45 of the latch 42 in the path of the free end 01"' the said contact-arm, the latter will yi-eld and be restrained from participating in the movement of the operating-lever (Fig. l) until the said lever reaches the limit of its clockwise movement, at which time the cam-linger 47 will engage the camlinger 46 and swing the latch 42 clockwise so as to remove its detent-linger 45 from the path of the end of the contactarm 26 and permit the latter to snap from left to right with the effect of engaging the contact 35 with the contact 36 and thus closing the circuit through the magnet.

The magnetic flux initiated in the core oi"l the magnet will act through the pole-piece 24 to attract the end of the contact-arm 26 and cause the contact 35 to more tightly engage the contact 36, with the result that a stronger current flows through the coil of the magnet` .and the magnetic flux builds up suiciently to attract the armature-arm ll of the operatinglever l0 and rock the said lever counter-clockwise to restorethe parts to the position shown in Fig. 4 and again break the circuit and re-A energize the driving-spring 32 for the beginning of another cycle of oper.ation.

l claim: l; In a driving-mechanism for electric clocks, the combination with an electro-mag;

net and a driving-spring; of an operatingmember adapted to be'moved in one direction by the said driving-spring and in the opposite direction by the said electro-magnet; a spring-arm secured at one end to the a said operating-member for movement therewith; a Contact carried by the said springarm; a latch positioned to engage the free end of the said spring-arm to releasably restrain the said contact from moving into itsfcircuit-closing position; andV latch-releasing means carried by the said operating-member and engaging the said latch for releasing the same and permitting the said contact to be moved into its circuit-closing position by the said spring-arm.

2.l In a driving-mechanism for electric clocks, the combination with aneleetro-magnet having two complementary pole-pieces;

l of a-driving-spring; a two-armed pivotal operating-meinber adapted to be moved in one direction by the said driving-spring and in the opposite direction by the said electromagnet and havng one of its arms positioned adjacent one of the pole-pieces of the said magnet; a spring-steel arm secured at one end to the other arm of the said operatingmember and extended adjacent the other pole-piece of the said magnet for attraction thereby; a contact carried by the said steel arm; a latch positioned to engage the free end vof the said steel arm to releasably restrain the said Contact from moving into its circuit-closing position; and latch-releasing means operated by the said operatingmember `for releasing the said latch and permitting the said steel arm to move the said Contact into its circuit-closing position.

3. In a driving-mechanism for electric clocks, the combination with an electro-magnet and a driving-spring; of an operating member adapted to be moved in one direction by the said driving-spring and in the opposite direction by the said electro-magnet; a cam-linger carried by the said operatingmember; a resiliently-mounted contact also carried by the said operating-member; a latch adapted to releasa-bly restrain the said contact from moving into its circuit-closing position and formed with a cam-finger positioned to be engaged by the cam-finger of the said operating-member; whereby the cam-finger` of the said operating member will co-act with the cam-finger of the said latch to release the same and permit the said contact to move into its circuit-closing position;

4E. In a driving-mechanism for electric clocks, the combination with an electro-magnet and a driving-spring; of an L-shaped operating-member pivoted between its ends and adapted to be moved in one direction by the said driving-spring and in the opposite direction by the said electro-magnet; a springarm secured at one end to the said operatingmember; a contact carried by the said spring-arm; and a pivotal latch positioned to engage the free end of the said springarm to releasably restrain the said contact from moving into its circuit-closing position; and a latch-operating finger carried by the said operating-member for swinging the said latch out of the path of the said springarm to permitthe same to move the said contact into its circuit-closing position.

In testimony whereof, I have signed this specication.

ELOF L. CARLSON.

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