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US1025865A - Balance staff and roller for watches. - Google Patents

Balance staff and roller for watches. Download PDF

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Publication number
US1025865A
US1025865A US58687010A US1910586870A US1025865A US 1025865 A US1025865 A US 1025865A US 58687010 A US58687010 A US 58687010A US 1910586870 A US1910586870 A US 1910586870A US 1025865 A US1025865 A US 1025865A
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United States
Prior art keywords
staff
roller
hub
end portion
balance
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Expired - Lifetime
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US58687010A
Inventor
Varian S Corey
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
HAMPDEN WATCH Co
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HAMPDEN WATCH Co
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Publication date
Application filed by HAMPDEN WATCH Co filed Critical HAMPDEN WATCH Co
Priority to US58687010A priority Critical patent/US1025865A/en
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Publication of US1025865A publication Critical patent/US1025865A/en
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Expired - Lifetime legal-status Critical Current

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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
    • G04B17/00Mechanisms for stabilising frequency
    • G04B17/32Component parts or constructional details, e.g. collet, stud, virole or piton

Definitions

  • the invention relates to the staff and rollers for the balance wheel of a watch, and pertains to the method of making and assembling the same so that the staff can be readily inserted in the other parts, or detached therefrom and replaced therein, without detaching the table-roller and jewelpin from the balance arm, and also so that the balance wheel as well as the rollers will always be concentric with and perpendicular to the staff.
  • the balance wheel and the rollers shall be properly spaced apart and shall be circumferentially concentric as well as radially perpendicular to the axis of the staff, and, although the balance wheel may be trued somewhat by a fiection or an extension of its arms, the rollers cannot be thus treated; so that it is practically necessary to make and assemble the rollers to be in true relation to the axis of the staff without further adjustment or manipulation.
  • Figure 1 is a plan view of a balance'arm with part of the rim thereon, and showing the staif in place;
  • Fig. 2 a vertical section on line 22, Fig. 1;
  • Fig. 3 a side elevation, and
  • Fig. 4 a plan view of one form of the table-roller;
  • Fig. 5 a plan view of a modified form of same;
  • Fig. 6, an elevation,
  • Fig. 7 a plan view of a safety roller for a double roller escapement mechanism.
  • the balance wheel is composed of the rim 1 and the arm 2, which arm is provided with the cylindric axial aperture 8, the upper edge of which is preferably slightly reamed in the usual manner as at 4:.
  • the table roller 5 or 5 is concentrically formed around the lower end of and integral with the corresponding hub 6, which hub serves to space the roller at the proper distance from the balance arm, and the cylinclric connecting boss 7 is concentrically formed on the upper end of and also integral with the same hub, which boss is preferably formed slightly concave on its upper end and is adapted to be entered and secured in the balance-arm aperture by staking or riveting its upper edge 8 outward over the reamed edge of the aperture, as at 8*, in
  • the axial aperture 10 is provided in the table-roller hub, and is tapered from a larger lower opening to a smaller upper opening; which aperture is formed concentric with the circumference of the boss and the roller, and perpendicular to the shoulder 9 of the hub and to the plane of the roller. And the jewel-pin 11 is secured to the table-roller in the usual manner.
  • the safety roller 12 is concentrically formed around the lower end of and integral with the corresponding hub 13, which hub serves to space this roller at the proper distance from the table roller; and the axial aperture 14 is provided through the safetyroller hub, and is tapered from a larger upper opening to a smaller lower opening, which aperture is made concentric with the circumference of the roller and perpendicular to the upper end 15 of the hub and to the plane of the roller.
  • the staflt' 16 is formed with the usual conical pivots 17 and l7 on its ends, and is preferably provided with the square offset or annular shoulder 18 intermediate its ends, thus dividing the staff into two end portions 19 and 19 each of which portions tapers reversely from a larger diameter in the cross-plane of their junction to a smaller diameter at the bases of the pivots.
  • the lower end portion 19 of the staff is preferably made as shown, slightly less in diameter than the upper end portion 19, so that the annular shoulder 18, as shown, is formed around the lower end of the upper end portion, but this particular relation of the parts is not essential, nor is the shoulder in the cross-plane of the junction of the end portions of the staff an essential feature of the invention, although it is a desirable means for more certainly and positively positioning the parts on the staff.
  • the parts are assembled by driving the tapered lower end portion 19 of the staff into the tapered aperture 14: of the safetyroller hub until the end of the hub reaches the upper end of the lower end portion of the staff, and abuts the annular shoulder of the staff when such a shoulder is used, in which relation of the parts the end portion of the staff is securely wedged in said aperture 14; after which the upper end portion of the staff is driven into the axial aperture 10 of the table-roller hub until the lower end of the table-roller hub reaches the lower end of the upper end portion of the staff and abuts the upper end of the safety-roller hub, in which relation of the parts the upper end portion of the staff is tightly wedged in said aperture 10.
  • a balance-stafi having each of its end portions tapered from a larger diameter in the cross-plane of their junction intermediate the ends to a smaller diameter toward the ends of the staff, a table-roller hub having a tapered axial aperture wedged on one end portion of the staff and a safety-roller hub having a tapered axial aperture wedged on the other end portion of the staff.
  • a balance-staff having each of its end portions tapered from a larger diameter in the cross-plane of their junction intermediate the ends to a smaller diameter toward the ends of the staff, a table-roller hub having a tapered axial aperture wedged on one end portion of the staff and a safetyroller hub having a tapered axial aperture wedged 011 the other end port-ion of the staff, the ends of the hubs abutting each other.
  • a balance-staff having an annular shoulder intermediate its ends and each end portion tapered from a larger diameter at the shoulder to a smaller diameter toward the ends of the staff, a table-roller hub having a tapered axial aperture wedged on one end portion of the staff and a safety-roller hub having a tapered axial aperture wedged on the other end portion of the staff, the end of one hub abutting the shoulder and. the end of the other hub.
  • a balance-staff having an annular shoulder intermedate its ends and each end portion tapered from a larger diameter at the shoulder to a smaller diameter toward the ends of the stafl, a table-roller hub having a tapered axial aperture wedged on one end portion of the stafl and a safety-roller hub having a tapered axial aperture wedged on the other end portion of the staff, the end of the safety-roller hub abutting the shaft shoulder and the end of the tableroller hub.
  • a balance-staff having an annular shoulder intermediate its ends and each end portion ta pered from a larger diameter at the shoulder to a smaller diameter toward the ends of the staff, the hub of one escapementmechanism part having a tapered axial aperture and being wedged on one end portion of the staff and the hub of another escapement-mechanism part having a tapered axial aperture and being wedged on the other end portion of the staff, the end of one hub abutting the shoulder and the end of the other hub.
  • a balance-staff having each of its end portions tapered from a larger diameter in the crossplane of their junction intermediate the ends to a smaller diameter toward the ends of the staff, the hub of one escapementmechanism part having a tapered axial aperture and being wedged on one end portion of the staff and the hub of another escapement-mechanism part having a tapered axial aperture and being wedged on the other end portion of the staff, the ends of the hubs abutting each other.
  • mechanism part having a tapered axial HARRY FREASE

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Rolls And Other Rotary Bodies (AREA)

Description

V. S. COREY. BALANCE STAFF AND ROLLER FOR WATCHES.
APPLICATION FILED our. 13, 1910.
Patent d'May 7, 1912.
1V1! w V v Y- 4 a W fiu/ntar I Vrz'awj. Corey.
Witness e5 2 UNITED STATES PATENT OFFICE.
VABIAN S. COREY, OF CANTON, OHIO, ASSIGNOR TO THE HAMIPDEN WATCH COMPANY, OF CANTON, OHIO, A CORPORATION OF OHIO.
BALANCE STAFF AND ROLLER FOR WATCHES.
, Specification of Letters Patent.
Patented May 7, 1912.
To all whom it may concern:
Be it known that I, VARIAN S. COREY, a citizen of the United States, residing at Canton, in the county of Stark and State of Ohio, have invented certain new and useful Improvements in Balance Staffs and Rollers for Watches, of which the following is a specification.
The invention relates to the staff and rollers for the balance wheel of a watch, and pertains to the method of making and assembling the same so that the staff can be readily inserted in the other parts, or detached therefrom and replaced therein, without detaching the table-roller and jewelpin from the balance arm, and also so that the balance wheel as well as the rollers will always be concentric with and perpendicular to the staff.
It is desirable if not necessary, to temper the pivots harder than can be permitted when the staff is staked or riveted rigidly to the arm of the balance, so that it is practi cally necessary to make the staff separate from the riveting means. It is also necessary that the balance wheel and the rollers shall be properly spaced apart and shall be circumferentially concentric as well as radially perpendicular to the axis of the staff, and, although the balance wheel may be trued somewhat by a fiection or an extension of its arms, the rollers cannot be thus treated; so that it is practically necessary to make and assemble the rollers to be in true relation to the axis of the staff without further adjustment or manipulation. These desirable features of construction and arrangement are attained by the present improvements, of which a preferred embodiment is illustrated on an enlarged scale in the accompanying drawing, forming part hereof, in which Figure 1 is a plan view of a balance'arm with part of the rim thereon, and showing the staif in place; Fig. 2, a vertical section on line 22, Fig. 1; Fig. 3, a side elevation, and Fig. 4 a plan view of one form of the table-roller; Fig. 5, a plan view of a modified form of same; and Fig. 6, an elevation,
and Fig. 7 a plan view of a safety roller for a double roller escapement mechanism.
Similar numerals refer to similar parts throughout the drawing.
The balance wheel is composed of the rim 1 and the arm 2, which arm is provided with the cylindric axial aperture 8, the upper edge of which is preferably slightly reamed in the usual manner as at 4:.
The table roller 5 or 5 is concentrically formed around the lower end of and integral with the corresponding hub 6, which hub serves to space the roller at the proper distance from the balance arm, and the cylinclric connecting boss 7 is concentrically formed on the upper end of and also integral with the same hub, which boss is preferably formed slightly concave on its upper end and is adapted to be entered and secured in the balance-arm aperture by staking or riveting its upper edge 8 outward over the reamed edge of the aperture, as at 8*, in
which relation of the parts the shoulder 9 formed by the upper end of the hub around the boss abuts the lower side of the balance arm around the aperture thereof, thus holding these parts rigidly together.
The axial aperture 10 is provided in the table-roller hub, and is tapered from a larger lower opening to a smaller upper opening; which aperture is formed concentric with the circumference of the boss and the roller, and perpendicular to the shoulder 9 of the hub and to the plane of the roller. And the jewel-pin 11 is secured to the table-roller in the usual manner.
The safety roller 12 is concentrically formed around the lower end of and integral with the corresponding hub 13, which hub serves to space this roller at the proper distance from the table roller; and the axial aperture 14 is provided through the safetyroller hub, and is tapered from a larger upper opening to a smaller lower opening, which aperture is made concentric with the circumference of the roller and perpendicular to the upper end 15 of the hub and to the plane of the roller.
The staflt' 16 is formed with the usual conical pivots 17 and l7 on its ends, and is preferably provided with the square offset or annular shoulder 18 intermediate its ends, thus dividing the staff into two end portions 19 and 19 each of which portions tapers reversely from a larger diameter in the cross-plane of their junction to a smaller diameter at the bases of the pivots. The lower end portion 19 of the staff is preferably made as shown, slightly less in diameter than the upper end portion 19, so that the annular shoulder 18, as shown, is formed around the lower end of the upper end portion, but this particular relation of the parts is not essential, nor is the shoulder in the cross-plane of the junction of the end portions of the staff an essential feature of the invention, although it is a desirable means for more certainly and positively positioning the parts on the staff.
The parts are assembled by driving the tapered lower end portion 19 of the staff into the tapered aperture 14: of the safetyroller hub until the end of the hub reaches the upper end of the lower end portion of the staff, and abuts the annular shoulder of the staff when such a shoulder is used, in which relation of the parts the end portion of the staff is securely wedged in said aperture 14; after which the upper end portion of the staff is driven into the axial aperture 10 of the table-roller hub until the lower end of the table-roller hub reaches the lower end of the upper end portion of the staff and abuts the upper end of the safety-roller hub, in which relation of the parts the upper end portion of the staff is tightly wedged in said aperture 10. By this con struction and arrangement of the parts, it is evident that the respective rollers will always be properly positioned on the. staff with reference to the balance wheel, and to each other, that they will always be circumferentially concentric and radially perpendicular to the axis of the staff, and that when the balance wheel has once been adjusted on the connecting boss to be circum ferentially concentric and radially perpendicular to the axis of one staff, it will always be likewise true to the axis of another staff which may replace the one. And it is furthermore evident that the staff may be readily inserted in and removed from the other parts by drawing or driving it in or out of the respective apertures; and that in these operations the tapered joints will tighten and loosen without a bruising or bending of the parts.
I claim:
1. A balance-stafi having each of its end portions tapered from a larger diameter in the cross-plane of their junction intermediate the ends to a smaller diameter toward the ends of the staff, a table-roller hub having a tapered axial aperture wedged on one end portion of the staff and a safety-roller hub having a tapered axial aperture wedged on the other end portion of the staff.
2. A balance-staff having each of its end portions tapered from a larger diameter in the cross-plane of their junction intermediate the ends to a smaller diameter toward the ends of the staff, a table-roller hub having a tapered axial aperture wedged on one end portion of the staff and a safetyroller hub having a tapered axial aperture wedged 011 the other end port-ion of the staff, the ends of the hubs abutting each other.
3. A balance-staff having an annular shoulder intermediate its ends and each end portion tapered from a larger diameter at the shoulder to a smaller diameter toward the ends of the staff, a table-roller hub having a tapered axial aperture wedged on one end portion of the staff and a safety-roller hub having a tapered axial aperture wedged on the other end portion of the staff, the end of one hub abutting the shoulder and. the end of the other hub.
4. A balance-staff having an annular shoulder intermedate its ends and each end portion tapered from a larger diameter at the shoulder to a smaller diameter toward the ends of the stafl, a table-roller hub having a tapered axial aperture wedged on one end portion of the stafl and a safety-roller hub having a tapered axial aperture wedged on the other end portion of the staff, the end of the safety-roller hub abutting the shaft shoulder and the end of the tableroller hub.
5. In an escapementanechanism, a balance-staff having an annular shoulder intermediate its ends and each end portion ta pered from a larger diameter at the shoulder to a smaller diameter toward the ends of the staff, the hub of one escapementmechanism part having a tapered axial aperture and being wedged on one end portion of the staff and the hub of another escapement-mechanism part having a tapered axial aperture and being wedged on the other end portion of the staff, the end of one hub abutting the shoulder and the end of the other hub.
6. In an escapement-mechanism, a balance-staff having each of its end portions tapered from a larger diameter in the crossplane of their junction intermediate the ends to a smaller diameter toward the ends of the staff, the hub of one escapementmechanism part having a tapered axial aperture and being wedged on one end portion of the staff and the hub of another escapement-mechanism part having a tapered axial aperture and being wedged on the other end portion of the staff, the ends of the hubs abutting each other.
7. In an escapement-meohanism, a baltion of the staff and the hub of another ance-stafi having each of its end portions taescapement-meohanism part having a ta- 10 pered from a larger diameter in the crosspered axial aperture and being wedged on plane of their junction intermediate the the other end portion of the staff.
ends to a smaller diameter toward the ends VARIAN S. COREY. of the staff, the hub of one escapement- Witnesses:
mechanism part having a tapered axial HARRY FREASE,
aperture and being wedged on one end por- RUTH A. MILLER.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents.
Washington, D. 0.
US58687010A 1910-10-13 1910-10-13 Balance staff and roller for watches. Expired - Lifetime US1025865A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10632155B2 (en) 2005-09-27 2020-04-28 Tissuetech, Inc. Amniotic membrane preparations and purified compositions and therapy for scar reversal and inhibition
US10729733B2 (en) 2013-05-10 2020-08-04 H.J. Heinz Company Brands Llc Probiotics and methods of use

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10632155B2 (en) 2005-09-27 2020-04-28 Tissuetech, Inc. Amniotic membrane preparations and purified compositions and therapy for scar reversal and inhibition
US10729733B2 (en) 2013-05-10 2020-08-04 H.J. Heinz Company Brands Llc Probiotics and methods of use

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