US1797648A - Electric winding-up device for clockworks - Google Patents

Electric winding-up device for clockworks Download PDF

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Publication number
US1797648A
US1797648A US222875A US22287527A US1797648A US 1797648 A US1797648 A US 1797648A US 222875 A US222875 A US 222875A US 22287527 A US22287527 A US 22287527A US 1797648 A US1797648 A US 1797648A
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Prior art keywords
armature
electromagnet
spring
shell
electric winding
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Expired - Lifetime
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US222875A
Inventor
Geisslinger Jean
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MITCHELL HUNTER CO
MITCHELL-HUNTER Co
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MITCHELL HUNTER CO
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    • GPHYSICS
    • G04HOROLOGY
    • G04CELECTROMECHANICAL CLOCKS OR WATCHES
    • G04C1/00Winding mechanical clocks electrically
    • G04C1/02Winding mechanical clocks electrically by electromagnets
    • G04C1/022Winding mechanical clocks electrically by electromagnets with snap-acting armature
    • G04C1/024Winding mechanical clocks electrically by electromagnets with snap-acting armature winding-up springs

Definitions

  • the present invention v relates to an electric winding up device for clock-works of the type comprising a driving member operated by a driving spring and an electro-magnet the armature of which stretches this driving spring, and in which the driving member and the armature form the switch for the circuit of the electromagnet.
  • the invention has for its object to pro- Vide a device of the type indicated of simplified construction, decreasing the space occupied and therefore more particularly adapted for use with small clocks, and one pole of the source of current such as are for instance employed in automobiles.
  • the winding-up device consists of a driving member connected to the body of the apparatus, i. e. the clock, while the frame of the electromagnet, insulated from the apparatus is connected to the other pole of the source of current and the armature is arranged in such a way that the current can flow from the core of the magnet directly to the armature.
  • the balance a swinging round the axle b is provided with a pawl c, engaging the ratchet wheel d which forms the first member of the driven gears e and is provided with the brake not shown on the drawing.
  • f is the driving spring
  • 9 the electromagnet
  • h the armature.
  • the electromagnet g is fastened with a saddle i to the insulating plate 2' which is supported by the body of the apparatus.
  • the shell 9 and the core g are provided with the two insulating discs k which hold the core Z.
  • the core 9 has one of its ends threaded, on
  • the armature 71. arranged to form the cover of the shell is connected to this latter by a spring blade n, adapted to serve simultaneously as hinge and as reciproeating spring.
  • 0 is a spindle adapted to guide the armature and 0 is an adjustable stop with ivhigh the play of the armature can be reguate ⁇ Vhen the electromagnet is excited, the armature it drives the balance a in clockwise direction, as seen on the drawing and stretches the driving spring 7 until the armature comes to lean against the shell 9
  • the balance a owing to its kinetic energy keeps on turning and when not in contact with the armature, opens the circuit of the electromagnet.
  • the antagonistic sprin it drives the armature back in its position 0 rest, while the driving spring f pulls the balance a in counter-clockwise direction, as seen on the drawing, and the latter with the pawl 0 turns the ratchet wheel.
  • One pole p of the source of current is connected to the body of the apparatus and therefore also with the balance a.
  • the other pole is connected to the fixed terminal 9 from which a solid connecting wire 9" leads through an opening in the shell 9 to the interior of the shell and is there connected to the coil Z.
  • the bare end t of the wire penetrates through the insulating disc and is lying between this latter and the inner surface of the back Wall of the shell 9 lVhen the nut is tightened, the wire is pressed against this inner surface; this arrangement makes soldering of the wire superfluous and therefore simplifies the insertion and removal of the coil.
  • the electric current flows thereby from the coil Z first to the shell 9 then to the spring blade and finally to the armature h.
  • an electric winding-up device for clock-works comprising a driving member, operated by a driving spring and an electromagnet, of which the armature stretches the driving spring and in which the driving member and armature form the switch for the circuit of the electromagnet, the combination of the driving member connected to the body of the apparatus, an electromagnet insulated from said body, the driving member being connected to one pole of the source of current, an electromagnet connected to the other pole of the source of current, and a spring hlnging the armature and 0pposing the driving spring, said armature being connected to the frame of the electromagnet so that the current flows directly from the frame to the armature.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • General Physics & Mathematics (AREA)
  • Reciprocating, Oscillating Or Vibrating Motors (AREA)

Description

I March 24, 1931. J GE|SSL|NGER 1,797,648
ELECTRIC WINDING'UP DEVICE FOR CLOCKWORKS Filed Sept. 29, 1927 INVENTOR. Q1 66/ 35/ W9C V A TTORNEYS.
Patented Mar. 24, 1931 UNITED STATES PATENT OFFICE JEAN GEISSLINGER, OF GENEVA, SWITZERLAND, ASSIGNOB, BY MESNE ASSIGNMENTS, TO MITCHELL-HUNTER 00., OF CHICAGO, ILLINOIS, A CORPORATION OF DELAWARE ELECTRIC WINDING-UP DEVICE FOR CLOCKWORKS Application filed September 29, 1927, Serial No. 222,875, and in Switzerland December 15, 1926.
The present invention vrelates to an electric winding up device for clock-works of the type comprising a driving member operated by a driving spring and an electro-magnet the armature of which stretches this driving spring, and in which the driving member and the armature form the switch for the circuit of the electromagnet.
The invention has for its object to pro- Vide a device of the type indicated of simplified construction, decreasing the space occupied and therefore more particularly adapted for use with small clocks, and one pole of the source of current such as are for instance employed in automobiles.
The winding-up device according to the present invention consists of a driving member connected to the body of the apparatus, i. e. the clock, while the frame of the electromagnet, insulated from the apparatus is connected to the other pole of the source of current and the armature is arranged in such a way that the current can flow from the core of the magnet directly to the armature.
The accompanying drawing illustrates by way of example a practical embodiment of the invention.
The balance a swinging round the axle b is provided with a pawl c, engaging the ratchet wheel d which forms the first member of the driven gears e and is provided with the brake not shown on the drawing. f is the driving spring, 9 the electromagnet and h the armature. The electromagnet g is fastened with a saddle i to the insulating plate 2' which is supported by the body of the apparatus. The shell 9 and the core g are provided with the two insulating discs k which hold the core Z. The core 9 has one of its ends threaded, on
which is screwed the nut m provided to secure the core 9 with the coil 7. in the interior of the shell 9 The armature 71. arranged to form the cover of the shell is connected to this latter by a spring blade n, adapted to serve simultaneously as hinge and as reciproeating spring. 0 is a spindle adapted to guide the armature and 0 is an adjustable stop with ivhigh the play of the armature can be reguate \Vhen the electromagnet is excited, the armature it drives the balance a in clockwise direction, as seen on the drawing and stretches the driving spring 7 until the armature comes to lean against the shell 9 The balance a owing to its kinetic energy keeps on turning and when not in contact with the armature, opens the circuit of the electromagnet. In this moment the antagonistic sprin it drives the armature back in its position 0 rest, while the driving spring f pulls the balance a in counter-clockwise direction, as seen on the drawing, and the latter with the pawl 0 turns the ratchet wheel.
One pole p of the source of current is connected to the body of the apparatus and therefore also with the balance a. The other pole is connected to the fixed terminal 9 from which a solid connecting wire 9" leads through an opening in the shell 9 to the interior of the shell and is there connected to the coil Z. On the opposite side of the latter, the bare end t of the wire penetrates through the insulating disc and is lying between this latter and the inner surface of the back Wall of the shell 9 lVhen the nut is tightened, the wire is pressed against this inner surface; this arrangement makes soldering of the wire superfluous and therefore simplifies the insertion and removal of the coil. The electric current flows thereby from the coil Z first to the shell 9 then to the spring blade and finally to the armature h.
I claim:
1. The combination with a spring actuated oscillating lever, of an electromagnet, an armature cooperating with said lever tor reenergizing said spring, said armature and said lever forming cooperating contact pieces to open and close the circuit of the electromagnet, said electromagnet including a winding placed in the interior of a shell insulated from said lever, and an opposing spring forming a hinge for connecting said armature to said shell, one end of said winding being connected to said shell thereby permitting the current to flow from the shell to the opposing springand then to the armature.
2. In an electric winding-up device for clock-works comprising a driving member, operated by a driving spring and an electromagnet, of which the armature stretches the driving spring and in which the driving member and armature form the switch for the circuit of the electromagnet, the combination of the driving member connected to the body of the apparatus, an electromagnet insulated from said body, the driving member being connected to one pole of the source of current, an electromagnet connected to the other pole of the source of current, and a spring hlnging the armature and 0pposing the driving spring, said armature being connected to the frame of the electromagnet so that the current flows directly from the frame to the armature.
3. In an electric winding-up device for clock-works comprising a driving member, operated by a driving spring and an electromagnet, of which the armature stretches the drlving spring and in which the driving member and armature form the switch for the circuit of the electromagnet, the combi nation of the driving member connected to the body of the apparatus, an electromagnet insulated from said body, the driving member connected to one pole of the source of current, an electromagnet connected to the other pole of the source of current, a spring hinging the armature and opposing the driving spring, said armature being connected to the frame of the electromagnet so that the current flows directly from the frame to the ar mature, and means for guiding and regulating the movement of the armature.
In testimony whereof I aflix my signature.
JEAN GEISSLINGER.
US222875A 1926-12-15 1927-09-29 Electric winding-up device for clockworks Expired - Lifetime US1797648A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519713A (en) * 1945-08-09 1950-08-22 Schild & Co Sa Timepiece with electromagnetic winding device
US2832191A (en) * 1954-08-10 1958-04-29 Arthur L Rawlings Electrically-driven timepiece

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519713A (en) * 1945-08-09 1950-08-22 Schild & Co Sa Timepiece with electromagnetic winding device
US2832191A (en) * 1954-08-10 1958-04-29 Arthur L Rawlings Electrically-driven timepiece

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