US709818A - Electric clock. - Google Patents

Electric clock. Download PDF

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Publication number
US709818A
US709818A US9028301A US1901090283A US709818A US 709818 A US709818 A US 709818A US 9028301 A US9028301 A US 9028301A US 1901090283 A US1901090283 A US 1901090283A US 709818 A US709818 A US 709818A
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clock
armature
train
permanent magnet
electromagnet
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US9028301A
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Newton Harrison
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    • GPHYSICS
    • G04HOROLOGY
    • G04CELECTROMECHANICAL CLOCKS OR WATCHES
    • G04C1/00Winding mechanical clocks electrically
    • G04C1/02Winding mechanical clocks electrically by electromagnets
    • G04C1/028Winding mechanical clocks electrically by electromagnets with linearly moving armature
    • GPHYSICS
    • G04HOROLOGY
    • G04CELECTROMECHANICAL CLOCKS OR WATCHES
    • G04C3/00Electromechanical clocks or watches independent of other time-pieces and in which the movement is maintained by electric means

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  • INVENTOR ATTORNEY m NORRIS virus on. wufaumou wnsnmn'rou, n c.
  • This invention relates to electrically-driven clocks, the object in this particular instance being to dispense with springs entirely and provide a substitute therefor which will propel the clock with an equal if not greater regularity than is possible with a spring and at small expense of battery-power,
  • I utilize the attractive power of a permanent magnet to propel the train of gears for a certain period of time and then the power of an electromagnet to restore the initial relation bet-ween the permanent magnet and the train.
  • the invention includes likewise certain details which add to the commercial value and practicability of the clock.
  • Figure 1 is a plan of the electromagnetic features of my improved clock, showing only a port-ion of the clock-train.
  • Fig. 2 is a side elevation of the same, and Fig. 3 illustrates the engagement of the driving-pawl with the main wheel of the train.
  • the power which directly drives the clock is obtained from a permanent magnet, (indicated byA,) the size and construction of which will be adapted for application to a particular wheel of the clock-train.
  • the armature of this magnet is indicated at A and is itself a permanent magnet also. It consists of a bar located between the poles of the magnet A with unlike poles opposed and mounted upon an axis a, so as to turn in a plane coincident with the plane in which the magnet A lies.
  • the ends of the armature are rounded concentrically,so as to maintain a fixed air-gap between the armature and the poles.
  • the axis of the armature carries a double arm, the two branches of which are lettered I) and I), re
  • the former carries at its outer end a spring 0, whose end is bent and adapted to engage the ratchet-teeth of one of the wheels at of the clock-train. It will be seen that so long as the armature A occupies a position at right angles to the poles of the magnet there will be no torque in the armature; but as soon as the armature is deflected to an oblique position with respect to the poles power is immediately exerted to draw the armature back to its position at right angles to the poles.
  • the spring 0 is so adjusted with respect to the wheel 61 that when the magnet and armature are free to exert their mutuallyattractive force the clock-train is driven.
  • a solenoid S shaped like the arc of a circle, whose core 8 is attached to the outer end of the arm b.
  • Attached to the hub of the double arm b b is another arm c, which normally rests against the under side of a spring f.
  • the spring is provided with two projections f and f placed side by side and with a space f between them, the edge of the projection f adjoining the Space being bent upward slightly.
  • the under side of projection f is covered with insulating material, while the under side of projection f and the top of projection f are bare. of a source of electricity and the arm 6 the other terminal, the circuit being indicated by the wires 1, 2, and 3 and including the solenoid S.
  • the operation is as follows:
  • the clock we will say, starts with the armature A in the oblique position shown, under which condition the contact 6 is raised against the insulation on the under side of the projection f" and the solenoid S is deenergized.
  • the armature By the mutual attraction between the magnet and the armature the latter is gradually drawn to the position at right angles to the poles of the permanent magnet, during which movement pawl c pushes wheel cl and the clock is driven.
  • the contact-arm e is maintained for a definite time in contact with the metallic surfaces of the spring f. This is accomplished by the arm erunning through the spacef and into the naked side of the projection f, the duration of the contact being as long as it takes the arm 6 to traverse forward and back on the projection f and across the upper space of the projection f. The arm 6 eventually runs beyond the projection f, whereupon the circuit is broken and the spring rises slightly to allow the arm 6 to pass beneath the projection f.
  • the permanent magnet affords a uniform power for propelling the clock, which, in fact, is more regular and certain than that of a spring and will last an indefinite period.
  • the battery is brought into use for an instant only.
  • the permanent magnet and its polarized armature togetherbeing powerful can be applied, for instance, to the hour-wheel of the train and arranged so that the solenoid will be brought into action only about once in live minutes.
  • I claim-- 1 In an electrically-driven clock, the combination with the clock-train, of two magnets, one of which is a permanent magnet and the other an electromagnet, the permanent magnet being adapted to act first upon the train through a limited movement, and the electromagnet adapted to act at the end of such movement to restore the permanent magnet to the beginning of its working position.
  • the com- -bination with the clock-train of a permanent magnet having a pivoted armature adapted to engage the train, and an electrolnagnet, the permanent magnet being adapted to act independently on its armature to drive the clock through a limited stroke, and the electromagnet being adapted to restore the armature to the beginning of its stroke after each completion thereof, substantially as described.
  • the combination with the clock-train of apermanent magnet having a pivoted armature adapted to engage the train and an electromagnet adapted to move the armature, the permanent magnet acting independently of the electromagnet to move the train through a limited stroke, and a switch adapted to close the circuit of the electromagnet at the end of the stroke of the armature, substantially as described.
  • the combination with the clock-train of a permanent magnet having a pivoted armature adapted to engage the train and an electromagnet adapted to move the armature, the permanent magnet acting independently of the electromagnet to move the train through a limited stroke, and a switch adapted to close the circuit of the electromagnet at the end of the stroke of the armature and hold it closed for a prolonged period.
  • a permanent magnet movably mounted and connected to the train, a second permanent magnet having its poles opposed to those of the first and within the influence thereof, whereby the combined action of the two permanent magnets will drive the clock.
  • the combination of the clock gearing, an electromagnet and a circuit-controller consisting of a movable contact and two fixed contacts arranged in the path of movement of the movable contact, one of said two contacts having insulation on one side against which the movable contact normally bears and means whereby the movable contact will first be carried onto the naked face of the insulated contact to maintain the closure, substantially as described.

Description

No. 709,818. Patented Sept 23, 1902.
N. mmmsou.
ELECTRIC CLOCK.
(Application filed May 11, 1901. Renewed Jan. 18, 1902.)
(No Model.)
INVENTOR ATTORNEY m: NORRIS virus on. wufaumou wnsnmn'rou, n c.
U ITED STATES PATENT @FFIGEQ NEIVTON HARRISON, OF NEWV YORK, N. Y., ASSIGNOR OF ONE-HALF TO WVILLIAM HENRY LAIRD, OF NEIV YORK, N. Y.
ELECTRIC CLOCK.
SPECIFICATION forming part of Letters Patent No. 709,818, dated September 23, 1902.
Application filed May 11, 1901. Renewed January 18, 1902 Serial No. 90,283. (No model.)
To all whom it may concern.-
Be it known that I, NEWTON HARRISON, a citizen of the United States, residing at the city of New York, in the borough of Manhattan and State of New York, have invented certain new and useful Improvements in Electric Clocks, of which the following is a full, clear, and exact description.
This invention relates to electrically-driven clocks, the object in this particular instance being to dispense with springs entirely and provide a substitute therefor which will propel the clock with an equal if not greater regularity than is possible with a spring and at small expense of battery-power,
In carrying out my invention I utilize the attractive power of a permanent magnet to propel the train of gears for a certain period of time and then the power of an electromagnet to restore the initial relation bet-ween the permanent magnet and the train.
The invention includes likewise certain details which add to the commercial value and practicability of the clock.
In the accompanying drawings, Figure 1 is a plan of the electromagnetic features of my improved clock, showing only a port-ion of the clock-train. Fig. 2 is a side elevation of the same, and Fig. 3 illustrates the engagement of the driving-pawl with the main wheel of the train.
The power which directly drives the clock is obtained from a permanent magnet, (indicated byA,) the size and construction of which will be adapted for application to a particular wheel of the clock-train. The armature of this magnet is indicated at A and is itself a permanent magnet also. It consists of a bar located between the poles of the magnet A with unlike poles opposed and mounted upon an axis a, so as to turn in a plane coincident with the plane in which the magnet A lies. The ends of the armature are rounded concentrically,so as to maintain a fixed air-gap between the armature and the poles. The axis of the armature carries a double arm, the two branches of which are lettered I) and I), re
spectively. The former carries at its outer end a spring 0, whose end is bent and adapted to engage the ratchet-teeth of one of the wheels at of the clock-train. It will be seen that so long as the armature A occupies a position at right angles to the poles of the magnet there will be no torque in the armature; but as soon as the armature is deflected to an oblique position with respect to the poles power is immediately exerted to draw the armature back to its position at right angles to the poles. The spring 0 is so adjusted with respect to the wheel 61 that when the magnet and armature are free to exert their mutuallyattractive force the clock-train is driven. For the purpose of returning the armature to its angular or oblique position after it has completed its stroke I provide a solenoid S, shaped like the arc of a circle, whose core 8 is attached to the outer end of the arm b. Attached to the hub of the double arm b b is another arm c, which normally rests against the under side of a spring f. The spring is provided with two projections f and f placed side by side and with a space f between them, the edge of the projection f adjoining the Space being bent upward slightly. The under side of projection f is covered with insulating material, while the under side of projection f and the top of projection f are bare. of a source of electricity and the arm 6 the other terminal, the circuit being indicated by the wires 1, 2, and 3 and including the solenoid S.
The operation is as follows: The clock, we will say, starts with the armature A in the oblique position shown, under which condition the contact 6 is raised against the insulation on the under side of the projection f" and the solenoid S is deenergized. By the mutual attraction between the magnet and the armature the latter is gradually drawn to the position at right angles to the poles of the permanent magnet, during which movement pawl c pushes wheel cl and the clock is driven. When the armature has reached the end of its stroke, which may be sufficient to force the wheel (Z forward the length of several of its teeth, the end of the pawl 0 runs out of engagement with the tooth on the wheel against which it has been pushing, and the armature completes its stroke by a sudden short movement, which carries the contactarm (2 across the space f and against the me- The spring f forms one terminal" tallic face of the projection f whereupon the circuit 1, 2, and 3 being closed the solenoid is energized and the armature is drawn again to its oblique position, the pawl 0 meanwhile sliding overthe ratchet-teeth freely. In order to be sure of a full stroke of the armature of the solenoid, the contact-arm e is maintained for a definite time in contact with the metallic surfaces of the spring f. This is accomplished by the arm erunning through the spacef and into the naked side of the projection f, the duration of the contact being as long as it takes the arm 6 to traverse forward and back on the projection f and across the upper space of the projection f. The arm 6 eventually runs beyond the projection f, whereupon the circuit is broken and the spring rises slightly to allow the arm 6 to pass beneath the projection f.
It will be seen that the permanent magnet affords a uniform power for propelling the clock, which, in fact, is more regular and certain than that of a spring and will last an indefinite period. The battery is brought into use for an instant only. The permanent magnet and its polarized armature togetherbeing powerful can be applied, for instance, to the hour-wheel of the train and arranged so that the solenoid will be brought into action only about once in live minutes.
Having described my invention, I claim-- 1. In an electrically-driven clock, the combination with the clock-train, of two magnets, one of which is a permanent magnet and the other an electromagnet, the permanent magnet being adapted to act first upon the train through a limited movement, and the electromagnet adapted to act at the end of such movement to restore the permanent magnet to the beginning of its working position.
2. In an electrically-driven clock, the com- -bination with the clock-train, of a permanent magnet having a pivoted armature adapted to engage the train, and an electrolnagnet, the permanent magnet being adapted to act independently on its armature to drive the clock through a limited stroke, and the electromagnet being adapted to restore the armature to the beginning of its stroke after each completion thereof, substantially as described.
3. In an electrically-driven clock, the combination with the clock-train of apermanent magnet having a pivoted armature adapted to engage the train and an electromagnet adapted to move the armature, the permanent magnet acting independently of the electromagnet to move the train through a limited stroke, and a switch adapted to close the circuit of the electromagnet at the end of the stroke of the armature, substantially as described.
4. In an electrically-driven clock, the combination with the clock-train of a permanent magnet having a pivoted armature adapted to engage the train and an electromagnet adapted to move the armature, the permanent magnet acting independently of the electromagnet to move the train through a limited stroke, and a switch adapted to close the circuit of the electromagnet at the end of the stroke of the armature and hold it closed for a prolonged period.
5. In a clock, a permanent magnet movably mounted and connected to the train, a second permanent magnet having its poles opposed to those of the first and within the influence thereof, whereby the combined action of the two permanent magnets will drive the clock.
6. In an electrically-driven clock, the combination with the clock-train of two magnets, one of which is adapted to act independently of the other to drive the clock-train, and the second of which acts upon the first at regular intervals to restore it to the beginning of its working position.
7. In an electric clock, the combination of the clock gearing, an electromagnet and a circuit-controller consisting of a movable contact and two fixed contacts arranged in the path of movement of the movable contact, one of said two contacts having insulation on one side against which the movable contact normally bears and means whereby the movable contact will first be carried onto the naked face of the insulated contact to maintain the closure, substantially as described.
In witness whereof I subscribe my signature in presence of two witnesses.
NEWTON HARRISON.
YVitnesses:
WALDO M. CHAPIN, FRANK S. OBER.
US9028301A 1901-05-11 1901-05-11 Electric clock. Expired - Lifetime US709818A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2516720A (en) * 1945-11-26 1950-07-25 Bendix Aviat Corp Electric clock
US2532944A (en) * 1945-11-26 1950-12-05 Bendix Aviat Corp Electric clock

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2516720A (en) * 1945-11-26 1950-07-25 Bendix Aviat Corp Electric clock
US2532944A (en) * 1945-11-26 1950-12-05 Bendix Aviat Corp Electric clock

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