US872135A - Mainspring-winder. - Google Patents

Mainspring-winder. Download PDF

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Publication number
US872135A
US872135A US37773407A US1907377734A US872135A US 872135 A US872135 A US 872135A US 37773407 A US37773407 A US 37773407A US 1907377734 A US1907377734 A US 1907377734A US 872135 A US872135 A US 872135A
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mainspring
guiding
pin
pins
winder
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US37773407A
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Louis Kohn
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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
    • G04B3/00Normal winding of clockworks by hand or mechanically; Winding up several mainsprings or driving weights simultaneously
    • G04B3/006Mechanical winding up; winding up with special equipment

Definitions

  • My invention relates to an improvement in main-spring winders, and has for its object the production of a device by means of which the main-spring of a watch may be wound in any required diameter and afterwards forced into the barrel or casing.
  • ⁇ A further object is ,the production of a simple and efficient device that is least liable to disarrangement of parts.
  • FIG. 1 is a plan view of my device (full size).
  • FIG. 2 is an enlarged vertical sectional view through the center of my device.
  • Fig. 3 is a sectional view on the line ⁇ 3--3 of Fig. 2, looking in the direction indicated by the arrows showing the slotted cap.
  • Fig. 4 is a sectional view on line 4-4 of Fig. 2, looking in the direction indicated by the arrows.
  • Fig. 5 is a sectional view on line 5-5 of Fig. ⁇ 2, looking in the direction indicated bythe arrows.
  • Fig. 6 represents a sectional view on line 6-6 of Fig. 2, looking in the direction indicated by arrows.
  • Fig. 6a is an enlarged detailshowing a top view of one of the slotted plates with the guiding pin in osition.
  • Fig. ⁇ 7 is a bottom view of Fig. 6.
  • ig. 8v is an enlarged perspective view showing a detail of one of the slotted plates.
  • Fig. 9 is a perspective view of one of my improved guides.
  • Fig. 10 is an enlarged perspective showing my improved plunger.
  • tubular shaft 20 is provided with a threaded y portion 21 adapted to screw into the barrel sleeve.
  • a tubular sliding spindle 22 slides Specification of Letters Patent. Application filed June 7. 1907. Serial No. 377,734.
  • a spring 23 is seated on the reduced portion 15 of the shaft between the shoulder 24 and the end of the shaft 20.
  • a collar 25 fits within the end of the barrel sleeve, and screws onto the end of the shaft 20.
  • Placed upon the end of the -shaft 20 is a slotted disk 26, and placed upon the end of the sliding spindle 22 is a similar disk 27, of a less diameter.
  • a guiding cap 28 is 'seated on the shaft 20 between the collar 25 and the disk. This guiding cap comprises a circular bottom 29 and an annular flange 30. Extending spirally around the opening in the bottom 29 is a flange 31.
  • This 'flange commences at the center adjacent to the shaft, and extends in a spiral path to the outer flange, forming a spiral track 32 between the whirls of the spiral flange.
  • the disk 26 is seated within the guiding cap 28, and is provided with a series of radial grooves 33. These grooves are best illustrated in Fig. 8, and each comprises a slot 34 extending entirely through the disk with cross-grooves 35 and 36 extending preferably at right angles to the walls of the slot 34, thus leaving a series of radial flanges 37 and 38.
  • the smaller disk 27 is also provided with a similar series of slots and grooves, adapted to register with those in the firstnamed disk.
  • Fig. 9 represents a guiding pim-comprising a pin proper or upright 39 and base 40.
  • a vertical cross-section of the base corresponds to a vertical cross-section of the channel or slotted groove in the disks, so that the base may be slid within the slot 34 and the shoulders 41 entering within the grooves 35 and 36 hold the guiding pin securely in position.
  • Extend ing downwardly from the base is a guiding pin 42 adapted to enter within the spiral chan- It will be noted, in Fig. 9, that the pin is located in one end of the base.
  • Fig. 9 represents a guiding pim-comprising a pin proper or upright 39 and base 40.
  • a vertical cross-section of the base corresponds to a vertical cross-section of the channel or slotted groove in the disks, so that the base may be slid within the slot 34 and the shoulders 41 entering within the grooves 35 and 36 hold the guiding pin securely in position.
  • Extend ing downwardly from the base is a guiding
  • the pin is located nearly at the center, as at 43, while in the device in question, in which there are three slots with three sets of pins, in the third pin proper the guiding pin in the base is located near the opposite end from that shown inA Fig. 9. The purpose of this will be explained later.
  • a plunger 45 provided with a channel 46, and a bore 47, and side lugs 48.
  • This plunger is adapted to fit over the pin proper, the guiding pin 39 moving ing slot in the smaller disk, the lugs 48 enter-v ing the corresponding grooves or channels therein.
  • Aca 49 adapted to fit over the end of the smal er disk, is provided with slots ⁇ -50, through Which the ends'of the bearing pins and plungers project, and also provided With a circular opening 51 having a radially extending slot 52.
  • Threaded posts 53 Secured to the inner faces of the cap 49 are threaded posts 53 adapted to pass through corresponding openings 54 in the smaller disk, and provided with screws passing through corresponding openings in the larger disk and into said posts.
  • a rotary spindle 55 for Windingythe spring is surrounded by a collar 56.
  • This spindle is provided With an enlarged portion 57, forming a shoulder 58.
  • a pin 59 projects from the spindle proper, and a pin 60 projects from the enlarged portion 57.
  • a crank 64 rovided With a handle 65 is rigidly securedJ to the collar 56.
  • the spindle 55 is adapted to enter the opening 51 in the outer case 49, the pin 59 passing through the slot 52, the further passage of. the spindle being prevented by the shoulder 58.
  • the pin 60 ⁇ is adapted to engage the end of the mainspring in order to hold the same securely While being Wound.
  • the operation of my device is as follows: The guiding cap 28 being in position surrounding the larger disk, the pins 42 and 43, together with any other in the series, are seated Within the spiral groove 32.
  • the edge of the guiding cap is preferably roughened or knurled, and by revolving the cap the pins are adjusted inwardly or outwardly.4
  • the'perimeter of the circle formed bythe inner faces of the guiding pins is enlarged or decreased as desired, in order to provide for winding a spring of any desired diameter.
  • This is accurately accomplished by placing the required case or barrel over the pins and turning the guiding calp until the pins strike the edges of the barre. It is evident that if these small pins were all at an-equal distance from the center, they would, in some cases, strike the iiange instead of the guiding groove.
  • the pins 42 are located at vvarying positions on the bottoms of the guiding pins, and are so arranged that they will, When at the end of the grooves 50, enter the spiral groove 32.
  • the end of the spring to be Wound ⁇ it makes the device and the plunger shaft 14 pressed inwardly.
  • a mainspring Winder the combination With a handle, a tubular shaft, a sliding shaft Within said tubular shaft, disks secured to the ends of said shafts, means for Winding a mainspring into any desired size, and means for transferring said wound mainspring into a barrel or case, said means compris'ing a series of adjustable plungers.
  • a mainspring Winder the combination with a handle, a tubular shaft, a sliding shaft Within said tubular shaft, disksjsecured to the ends 'of said shafts, means for Winding mainspring comprising a series of guides, a
  • adjustable mechanism for regulating the size of the mainspring comprising a series ofradially guides for en- In a mainspring Winder, adjustable adjustable guides, a spiral track, and means on said guides for engaging the sides of said track.
  • adjustable mechanism for regulating the size of' the mainspring comprising a ⁇ series of guides, a spiral track, a series of pins extending doWn- Wardly from said guides entering said track.
  • a mainspring Winder size-adjusting and spring-discharging mechanism, comprising a series of radially adjustable guides and flanges, a spiral track, and means on said guides for engaging said track.
  • a mainspring Winder Winding mechanism in combination With ladjustable guiding pins, said pins comprising an upright, a flanged base, and an engaging pin extending downwardly therefrom.
  • adjustable discharge plungers adj acent thereto having lateral flanges extending on opposite sides of said discharge plunger, said4 ⁇ pins comprising an upright, a flanged base, and an engaging pin extending doWn- Wardly therefrom.
  • a mainspring Winder Winding mechanism in combination With adjusting mechanism, a guiding case comprising an annular flange, a circular bottom, a spiral flange on the inner face thereof, forming a track or groove, by means of Which said adjusting mechanism is positioned.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Springs (AREA)

Description

PATBNTED NOV. 26, l190'7.
L.KOHN. MAINSPRING WINDER.
APPLICATION FILED JUNE 7, 1907.
UNITED STATES PATENT onirica. i
LOUIS KOHN, OF CHICAGO, ILLINOIS.
MAINSPRING-WINDER.
To all whom 'it may concern:
Be it known that I, LoUrs KOHN, acitizen of the United States of America, and resident of Chicago, Illinois, haveinvented a certain new and useful Improvement 1n Mamspring- VVinders, of which the following is a specilication. 4
My invention relates to an improvement in main-spring winders, and has for its object the production of a device by means of which the main-spring of a watch may be wound in any required diameter and afterwards forced into the barrel or casing.
`A further object is ,the production of a simple and efficient device that is least liable to disarrangement of parts.
These and such other objects as may hereinafter appear, are attained by my device, embodiments of which are illustrated in the accompanying drawings, in which Figure 1 is a plan view of my device (full size). Fig. 2 is an enlarged vertical sectional view through the center of my device. Fig. 3 is a sectional view on the line `3--3 of Fig. 2, looking in the direction indicated by the arrows showing the slotted cap. Fig. 4 is a sectional view on line 4-4 of Fig. 2, looking in the direction indicated by the arrows. Fig. 5 is a sectional view on line 5-5 of Fig. `2, looking in the direction indicated bythe arrows. Fig. 6 represents a sectional view on line 6-6 of Fig. 2, looking in the direction indicated by arrows. Fig. 6a is an enlarged detailshowing a top view of one of the slotted plates with the guiding pin in osition. Fig.` 7 is a bottom view of Fig. 6.
ig. 8v is an enlarged perspective view showing a detail of one of the slotted plates. Fig. 9 is a perspective view of one of my improved guides. Fig. 10 is an enlarged perspective showing my improved plunger.
Like numerals of reference indicate like parts in the several figures of the drawing.
tubular shaft 20 is provided with a threaded y portion 21 adapted to screw into the barrel sleeve. ,'A tubular sliding spindle 22 slides Specification of Letters Patent. Application filed June 7. 1907. Serial No. 377,734.
.nel 32.
Patented Nov. 26, 1907.
within the shaft 20, and is screwed onto the end 16 of the spindle 14. A spring 23 is seated on the reduced portion 15 of the shaft between the shoulder 24 and the end of the shaft 20. A collar 25 fits within the end of the barrel sleeve, and screws onto the end of the shaft 20. Placed upon the end of the -shaft 20 is a slotted disk 26, and placed upon the end of the sliding spindle 22 is a similar disk 27, of a less diameter. A guiding cap 28 is 'seated on the shaft 20 between the collar 25 and the disk. This guiding cap comprises a circular bottom 29 and an annular flange 30. Extending spirally around the opening in the bottom 29 is a flange 31. This 'flange commences at the center adjacent to the shaft, and extends in a spiral path to the outer flange, forming a spiral track 32 between the whirls of the spiral flange. The disk 26 is seated within the guiding cap 28, and is provided with a series of radial grooves 33. These grooves are best illustrated in Fig. 8, and each comprises a slot 34 extending entirely through the disk with cross-grooves 35 and 36 extending preferably at right angles to the walls of the slot 34, thus leaving a series of radial flanges 37 and 38. The smaller disk 27 is also provided with a similar series of slots and grooves, adapted to register with those in the firstnamed disk.
Referring now to Fig. 9, which represents a guiding pim-comprising a pin proper or upright 39 and base 40. A vertical cross-section of the base corresponds to a vertical cross-section of the channel or slotted groove in the disks, so that the base may be slid within the slot 34 and the shoulders 41 entering within the grooves 35 and 36 hold the guiding pin securely in position. Extend ing downwardly from the base is a guiding pin 42 adapted to enter within the spiral chan- It will be noted, in Fig. 9, that the pin is located in one end of the base. In Fig. 7 the pin is located nearly at the center, as at 43, while in the device in question, in which there are three slots with three sets of pins, in the third pin proper the guiding pin in the base is located near the opposite end from that shown inA Fig. 9. The purpose of this will be explained later. Extending upwardly from the base, and preferably parallel to the pin 39, is a pin 44. y
In Fig. 10, is shown a plunger 45 provided with a channel 46, and a bore 47, and side lugs 48. This plunger is adapted to fit over the pin proper, the guiding pin 39 moving ing slot in the smaller disk, the lugs 48 enter-v ing the corresponding grooves or channels therein. Aca 49 adapted to fit over the end of the smal er disk, is provided with slots` -50, through Which the ends'of the bearing pins and plungers project, and also provided With a circular opening 51 having a radially extending slot 52. Secured to the inner faces of the cap 49 are threaded posts 53 adapted to pass through corresponding openings 54 in the smaller disk, and provided with screws passing through corresponding openings in the larger disk and into said posts. A rotary spindle 55 for Windingythe spring is surrounded by a collar 56. This spindle is provided With an enlarged portion 57, forming a shoulder 58. A pin 59 projects from the spindle proper, and a pin 60 projects from the enlarged portion 57.
in 61 extends through a slot 62'in the colar 56, and enters a peripheral groove 63 in the spindle. This pin holds the spindle in place in the collar, but the groove permits a certain amount of longitudinal movement. A crank 64 rovided With a handle 65 is rigidly securedJ to the collar 56. The spindle 55 is adapted to enter the opening 51 in the outer case 49, the pin 59 passing through the slot 52, the further passage of. the spindle being prevented by the shoulder 58. The pin 60 `is adapted to engage the end of the mainspring in order to hold the same securely While being Wound.
The operation of my device is as follows: The guiding cap 28 being in position surrounding the larger disk, the pins 42 and 43, together with any other in the series, are seated Within the spiral groove 32. The edge of the guiding cap is preferably roughened or knurled, and by revolving the cap the pins are adjusted inwardly or outwardly.4
In this manner, the'perimeter of the circle formed bythe inner faces of the guiding pins is enlarged or decreased as desired, in order to provide for winding a spring of any desired diameter.. This is accurately accomplished by placing the required case or barrel over the pins and turning the guiding calp until the pins strike the edges of the barre. It is evident that if these small pins were all at an-equal distance from the center, they Would, in some cases, strike the iiange instead of the guiding groove. So it will be noted that the pins 42 are located at vvarying positions on the bottoms of the guiding pins, and are so arranged that they will, When at the end of the grooves 50, enter the spiral groove 32. When the guiding pins have been shifted so as to provide for the proper diameter, the end of the spring to be Wound `it makes the device and the plunger shaft 14 pressed inwardly. y
This pressure is transmitted to the tubular plunger shaft 22, to the end of Which is secured the smaller disk 27, carrying the discharge plungers 45. This movement forces thev smaller disk 27' away from the larger disk, the plungers sliding along thesides of the pin proper 39, but held in place by means of the pins 44 and their position in the radial The ends of the discharge plungers are-thus forced upwardly through the radial slots 50 in the outer cap, and press against the bottom of the spring Wound between the guides. A further movement of the plungers -discharges the coiled spring linto the barrel or case.
It Will be noted that while the mechanism involved in this structure is somewhatcomplicated, the operation is exceedingly simple, it being simply. necessary to attach the spring and wind it, to press the plunger and discharge it. The mechanism is entirely protected by means of the outer casings, and
there is 'absolutely no chance for any of the parts to be lost or displaced .When thedevice is properly assembled. All the parts are of standard sizes, and easily replaceable, so that practically indestructible as a Whole. I
I claim:
1. In a mainspring Winder, the combination With a handle, a tubular shaft, a sliding shaft Within said tubular shaft, disks secured to the ends of said shafts, means for Winding a mainspring into any desired size, and means for transferring said wound mainspring into a barrel or case, said means compris'ing a series of adjustable plungers.
2. In a mainspring Winder, the combination with a handle, a tubular shaft, a sliding shaft Within said tubular shaft, disksjsecured to the ends 'of said shafts, means for Winding mainspring comprising a series of guides, a
spiral track, vand means on said gaging the sides of said track.
4. In a mainspring Winder, adjustable mechanism for regulating the size of the mainspring, comprising a series ofradially guides for en- In a mainspring Winder, adjustable adjustable guides, a spiral track, and means on said guides for engaging the sides of said track.
5. In a mainspring Winder, adjustable mechanism for regulating the size of' the mainspring, comprising a `series of guides, a spiral track, a series of pins extending doWn- Wardly from said guides entering said track.
6; In a mainspring Winder, size-adjusting and spring-discharging mechanism, comprising a series of radially adjustable guides and flanges, a spiral track, and means on said guides for engaging said track.
7; In a mainspring Winder, Winding mechanism in combination With ladjustable guiding pins, said pins comprising an upright, a flanged base, and an engaging pin extending downwardly therefrom.
8. Ina mainspring Winder, Winding mechanism in combination With adjustable guiding pins, adjustable discharge plungers adj acent thereto having lateral flanges extending on opposite sides of said discharge plunger, said4` pins comprising an upright, a flanged base, and an engaging pin extending doWn- Wardly therefrom.
I 9. In a mainspring Winder, Winding mechanism in combination With adjustable guiding pins, adjustable discharge plungers in operative relation therewith, lateral flanges extending on opposite sides of' said discharge lunger, said pins comprising an upright, a
anged base, and an engaging pin extending downwardly therefrom.
10i. In a mainspring Winder, Winding mechanism in combination With adjusting mechanism, a guiding case comprising an annular flange, a circular bottom, a spiral flange on the inner face thereof, forming a track or groove, by means of Which said adjusting mechanism is positioned.
1l. Ina mamspring Winder, an outer case, an inner tubular shaft, a sliding spindle reciprocating therein, slotted disks secured to the ends of said shaft and spindle, a radially adjustable, spring adjusting and discharging means seated Within the said disks, guiding mechanism for engagement therewith, a slotted plate, and Winding mechanism.
Signed by me at Chicago, Illinois, this 17 th day of April, 1907.
LOUIS KOHN.
Witnesses: y
ALBERT JOHN SAUSER, SARAH LEWIS.
US37773407A 1907-06-07 1907-06-07 Mainspring-winder. Expired - Lifetime US872135A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1989008069A1 (en) * 1988-03-01 1989-09-08 William Henry Clarke Spring winding tool

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1989008069A1 (en) * 1988-03-01 1989-09-08 William Henry Clarke Spring winding tool

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