US1619943A - Clockwork mechanism - Google Patents

Clockwork mechanism Download PDF

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Publication number
US1619943A
US1619943A US115835A US11583526A US1619943A US 1619943 A US1619943 A US 1619943A US 115835 A US115835 A US 115835A US 11583526 A US11583526 A US 11583526A US 1619943 A US1619943 A US 1619943A
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United States
Prior art keywords
spring
barrel
winding
blade
wound
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Expired - Lifetime
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US115835A
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Lehwess Edouard Ernest
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    • GPHYSICS
    • G04HOROLOGY
    • G04BMECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
    • G04B1/00Driving mechanisms
    • G04B1/10Driving mechanisms with mainspring
    • G04B1/18Constructions for connecting the ends of the mainsprings with the barrel or the arbor
    • G04B1/185Friction clutch between spring and spring cylinder

Definitions

  • This invention relates to mechanism for preventing the overwinding of springs and is more particularly applicable to clockwork mechanism such as is used in mileage indicators, time recording mechanism and such like instruments of which the operating mechanism must be periodically wound and is driven by the unwinding of a spring.
  • A. further object of the invention is to provide a device which will permit the main spring to slip after it has been fully'wound.
  • Figure 1 is a plan view of a barrel or drum and of the mechanismfor winding its spiral spring
  • Figure 2 is a section on the line 22 of Figure 1.
  • the spiral spring a which is located in the interior of the bar rel or drum 6, is formed at its outer end with a hook 0 which is adapted to engage with the end of an annular blade spring d, which end is slightly bent inwardly.
  • the annular spring d is entirely smooth on its outer surface as is also the internal surface of the drum and barrel.
  • This annular spring which as illustrated is in the form of an open ring bears frictionally with substantially the whole of its surface against the internal surfaceof the barrel.
  • the thickness and strength of the annular spring are such as to produce the necessary friction between the annular spring and the internal surface of the barrel to prevent annular movement of the annular spring relatively to the barrel until the winding spring a has been fully wound.
  • the length of the annular spring (2 is slightly less than the circumference of the surface of the barrel.
  • the inner end of the spring a is suitably secured to the winding spindle e which is driven by the winding train f, g, h ( Figures 1 and 2).
  • the spring a is wound-up by rotating the spindles h and e in the directlon of the arrows ( Figure 2).
  • the frictional force by .which the blade spring d bears against the inner surface of the barrel 6 is such that it is more than sufilcient to prevent the spring (Z from slipping on the inner surface of the barrel until after the spring a has been fully wound.
  • the end of the sprin (Z to which the spiral spring is hooked may a so be of a shape other than above described.
  • the end of the spring oZ may be wound or coiled in any suitable manner.
  • a barrel In spring driving mechanism, a barrel, a windin spindle rotatable in the barrel, 2. blade sprmg frictionally gripping and extending substantially throughout the inner surface of the barrel, one terminal of the blade sprin being inwardly oifset from the surface of t e barrel, and a winding spring removably connected at its inner end to the spindle and coiled about the same within the barrel, the outer end of the winding spring- 3.
  • spring driving mechanism a barrel,
  • a winding spindle rotatable in the barrel a blade spring '0f.. open-ring form frictionally gripping and extending substantially throughout the' inner surface of the barrel, one terminal of tlinglade spring being inwardly offset from the surface of the barrel, and a winding spring having its inner end removably connected to the spindle and coiled thereabout within the barrel, the outer end of the winding spring being bent to form a hook throughout substantially its full width to engage over the inwardly olfset end of the blade s ring to insure engagement between the bla e spring and outer end of the winding spring throughout substantially the dull width of both springs, the frictionalcooperation of the blade spring with the barrelv resisting movement of the blade spring and thereby of the hooked end of the winding spring during winding of the latter to substantially its maximum capacity, the blade spring thereafter yielding relative to the barrel to prevent breakage of the winding spring under further winding efiort.

Description

1 Q March 927 E. E. LEHWESS CLOCKWORK MECHANISM Filed June 14, 1926 j'vm W 7 m r M Patented Mar. 8, 1927 UNITED STATES PATENT OFFICE.
EDOUARD ERNEST LEHWESS, OF PARIS, FRANCE.
' CLOCKWORK MECHANISM.
Application filed June 14, 1926, Serial No. 115,835, and in Belgium July 22, 1925.
' This invention relates to mechanism for preventing the overwinding of springs and is more particularly applicable to clockwork mechanism such as is used in mileage indicators, time recording mechanism and such like instruments of which the operating mechanism must be periodically wound and is driven by the unwinding of a spring.
It is the objectof the present invention to providea device which will prevent overwinding of the spring when this has been fully wound up.
A. further object of the invention is to provide a device which will permit the main spring to slip after it has been fully'wound.
These and other objects, will appear more fully from the detailed description of the accompanying drawings, wherein a Figure 1 is a plan view of a barrel or drum and of the mechanismfor winding its spiral spring, and
Figure 2 is a section on the line 22 of Figure 1.
As illustrated in Figure 2 the spiral spring a, which is located in the interior of the bar rel or drum 6, is formed at its outer end with a hook 0 which is adapted to engage with the end of an annular blade spring d, which end is slightly bent inwardly. The annular spring d is entirely smooth on its outer surface as is also the internal surface of the drum and barrel. This annular spring, which as illustrated is in the form of an open ring bears frictionally with substantially the whole of its surface against the internal surfaceof the barrel. The thickness and strength of the annular spring are such as to produce the necessary friction between the annular spring and the internal surface of the barrel to prevent annular movement of the annular spring relatively to the barrel until the winding spring a has been fully wound. The length of the annular spring (2 is slightly less than the circumference of the surface of the barrel.
The inner end of the spring a is suitably secured to the winding spindle e which is driven by the winding train f, g, h (Figures 1 and 2).
The spring a is wound-up by rotating the spindles h and e in the directlon of the arrows (Figure 2).
As above described, the frictional force by .which the blade spring d bears against the inner surface of the barrel 6 is such that it is more than sufilcient to prevent the spring (Z from slipping on the inner surface of the barrel until after the spring a has been fully wound.
It will be seen that by means of the device above described that should 'the winding movement be continued after the spiral spring a. has been completely wound, the winding force becomes greater than the frictional force or the braking action of 'the blade spring (Z so that the latter will slip on may be replaced by another member which will exert sufficient friction on the internal surface of the barrel or against any other surface thereof, the force exerted on this member by the hook end of the winding spring a being adapted to increase the friction.
The end of the sprin (Z to which the spiral spring is hooked may a so be of a shape other than above described. For example, the end of the spring oZ may be wound or coiled in any suitable manner.
Having thus described my invention what I claim as new and desire to secure by Letters Patent is 1. In spring driving mechanism, a barrel, a winding spindle rotatable in the barrel, a blade spring frictionally gripping and extending substantially throughout the inner surface of the barrel, and a winding spring connected at its inner end to the spindle and coiled about the same within the barrel, the outer end of the winding spring being formed as a hook to engage over one end of the blade spring, the frictional engagement between the blade spring and barrel permitting the winding spring to be wound to a degree determined by such frictional en gagement.
2. In spring driving mechanism, a barrel, a windin spindle rotatable in the barrel, 2. blade sprmg frictionally gripping and extending substantially throughout the inner surface of the barrel, one terminal of the blade sprin being inwardly oifset from the surface of t e barrel, and a winding spring removably connected at its inner end to the spindle and coiled about the same within the barrel, the outer end of the winding spring- 3. In spring driving mechanism, a barrel,
a winding spindle rotatable in the barrel, a blade spring '0f.. open-ring form frictionally gripping and extending substantially throughout the' inner surface of the barrel, one terminal of tlieblade spring being inwardly offset from the surface of the barrel, and a winding spring having its inner end removably connected to the spindle and coiled thereabout within the barrel, the outer end of the winding spring being bent to form a hook throughout substantially its full width to engage over the inwardly olfset end of the blade s ring to insure engagement between the bla e spring and outer end of the winding spring throughout substantially the dull width of both springs, the frictionalcooperation of the blade spring with the barrelv resisting movement of the blade spring and thereby of the hooked end of the winding spring during winding of the latter to substantially its maximum capacity, the blade spring thereafter yielding relative to the barrel to prevent breakage of the winding spring under further winding efiort.
EDOUARD E. LEHWESS.
US115835A 1925-07-22 1926-06-14 Clockwork mechanism Expired - Lifetime US1619943A (en)

Applications Claiming Priority (1)

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BE1619943X 1925-07-22

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US1619943A true US1619943A (en) 1927-03-08

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2617248A (en) * 1948-12-31 1952-11-11 Foster H Brown Overwind preventer
US4241534A (en) * 1979-02-14 1980-12-30 Mattel, Inc. Toy vehicle with spring drive mechanism

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2617248A (en) * 1948-12-31 1952-11-11 Foster H Brown Overwind preventer
US4241534A (en) * 1979-02-14 1980-12-30 Mattel, Inc. Toy vehicle with spring drive mechanism

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