US3529415A

US3529415A - Electric watch contact assembly

Info

Publication number: US3529415A
Application number: US759080A
Authority: US
Inventors: Paul Wuthrich
Original assignee: Timex Corp
Current assignee: Timex Group USA Inc
Priority date: 1968-09-11
Filing date: 1968-09-11
Publication date: 1970-09-22
Anticipated expiration: 1987-09-22
Also published as: CH1362069A4; FR2017818A1; CH508929A; DE1942311B2; DE1942311A1; GB1221036A

Description

Sept. 22, 1970 wu H cH 3,529,415

ELECTRIC WATCH CONTACT ASSEMBLY Filed Sept. 11, 1968 g I I I I {I H I, I i I I Q 35 \L\ /8 l/ 25 27 i F I INVV-ENTOR.

PAUL wu rule/cu United States Patent O 3,529,415 ELECTRIC WATCH CONTACT ASSEMBLY Paul Wuthrich, Woodbury, Conn., assignor to Timex Corporation, a corporation of Connecticut Filed Sept. 11, 1968, Ser. No. 759,080 Int. Cl. G04c 3/04 US. CI. 58-28 6 Claims ABSTRACT OF THE DISCLOSURE A watch powered by an electric battery cell includes a pivoted oscillatory balance wheel. The balance wheel carries a coil and a contact pin. A contact assembly includes a terminal spring to contact the battery, an insulative body portion, and a contact spring to contact the balance wheel contact pin. The body portion of the contact assembly acts as a locator and a spacer.

DESCRIPTION The present invention relates to horology and more particularly to a component of an electric watch.

Electric watches have been accepted by the public. They do not need to be wound and they may be accurate, as their batteries provide a relatively constant power compared to spring driven watches. However, electric watches have been relatively expensive.

The power for an electric watch comes from a battery cell within the case. The cell must be small so that its power is limited. Generally, it is desired that the battery cell be replaced no more often than once a year. Consequently, the power consumption of the motor of the watch must be low. One method of attempting to provide such low power consumption has been to manufacture the parts with high accuracy and to assemble them using highly skilled labor. The many parts of an electric watch, and their careful assembly, has proven costly. For eX- ample, at the present time, the least expensive electric watch sells for three or four times the price of a springdriven watch.

It is the objective of the present invention to provide a contact assembly for an electric watch, which contact assembly is relatively low in cost and replaces a number of parts.

It is further objective of the present invention to provide a contact assembly for an electric watch which does not need skilled labor to produce and assemble into place and which replaces a number of parts requiring assembly.

In accordance with the present invention, an electric watch is provided having a pivotable oscillatory balance wheel which acts as its time base. The balance wheel carries an electric coil wound with fine wire and a contact pin. A small electric battery cell is positioned within the watch case. A hairspring, connected at one of its ends to a hairspring hub on the balance wheel staff, serves as one connection from the battery to the coil. The other connection, from the battery to the coil, is the intermittent contact formed by the touching of a contact spring with the contact pin on the balance wheel. The contact spring is part of a contact assembly. The contact assembly includes an insulative body portion and a battery terminal contact spring. The insulative body has dowels (lugs) which act as a locator in the assembly of the watch. The insulative body also acts as a spacer, i.e., it separates parts of the watch. Preferably, the body is molded in plastic with the battery terminal spring molded in place.

The contact assembly is relatively low in cost as the positioning of the battery terminal spring, relative to the body portion, is part of the molding operation. The assembly of the contact assembly in the watch may be performed by relatively unskilled labor. The contact assembly may replace the cost and assembly of the following parts: (1) a separate terminal spring to contact the battery and a screw to hold it to an insulative base; (2) the insulative base and the screw to hold the base piece to the frame; (3) a wire or other conductive member from the battery terminal spring to the contact spring; (4) a mounting for the contact spring; (5) a screw or other device to mount the contact spring on its mounting; (6) a damping ring or damping spring to control the oscillation of the contact spring; and (7) a pillar or other spacing device to separate the plates.

Other objectives of the present invention will be apparent from the detailed description of the preferred embodiment described below, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a top plan view of a portion of the movement of an electric watch;

FIG. 2 is a top plan view of the contact assembly of the present invention; and

FIG. 3 is a side plan view of the contact assembly.

As shown in FIG. 1, the electric watch includes a balance wheel 10 as its time base. The balance wheel is pivoted to oscillate in bearings between a frame plate 11 and a balance bridge (not shown). The balance wheel 10 is carried on a balance wheel staff 12. The balance wheel 10 carries an electrical coil 13 wound of many turns of fine wire. The coil 13 is adhered by glue 14 to an arm 15 of the balance wheel. The balance wheel 10 also carries, either directly on the arm 15 or on a roller 30, a D shaped insulative jewel 16 and a metal contact pin 17. A wire connects contact pin 17 to one end of the coil 13. The other end of coil 13 is connected to the inner end of a hairspring (not shown). The inner end of the hairspring is connected to a hairspring hub on the balance wheel staff. The outer end of the hairspring is connected to a frame member, which acts as an electrical ground.

A small electrical battery cell 18 is positioned within the case. The contacts of the battery are on its base (the bottom) and on its top. The bottom battery contact touches and contacts the frame of the movement. The top contact of cell 18 is in contact with a terminal spring 19'.

The terminal spring 19 is part of the contact assembly 20. The terminal spring 19 has a battery contact portion 21 which pushes downwardly on the top of the cell 18, a center portion 22, and an end portion 23. The center portion 22 is embedded Within the body member 24 of the assembly.

The body member 24 is an insulative member which preferably is molded from a plastic resin. A suitable plastic resin is nylon as it is a good insulator, it is dimensionally stable and it may be accurately molded. Preferably the terminal spring 19 is placed in the mold and the plastic resin flowed into the mold under pressure to mold the body member 24 with the terminal spring 19 in place.

The body member 24 is formed with first and second integral locating dowels (lugs), respectively dowels 25 and 26. The bottom face 27 (aside from the dowels) and the top face 28 of body member 24 are fiat so that the body member 24 may act as a spacer. As shown in FIG. 2, the body member 24 is positioned between the frame 11 and the train bridge 39 and acts, in place of a pillar, to space them apart. The locating

dowels

25 and 26 lit in holes in the train bridge 39 or the frame 11 and serve to locate the contact assembly in the assembly of the watch and to retain the train bridge in position subsequent to assembly. A screw 31, which fits through a hole in the train bridge 39, and an indentation 32 in the body member (see FIG. 1), is screwed into threads in a hole 33 in the frame 11. The screw 31 keeps the train bridge, body member and frame together.

The end portion 23 of the contact assembly has an inverted L-shaped portion 34. The contact spring 35 is connected to the portion 34 by soldering, a conductive glue, welding or other methods. The contact spring 35 is simply a straight flat elongated spring metal piece, in contrast to the elaborate contact springs of other electric watch movements. The end 36 of contact spring 35 is positioned to contact pin 17 twice during each full oscillation of the balance wheel 10. The contact spring 35 may be adjusted inward or outward, in relationship to the balance wheel center, or vertically (parallel to the balance wheel axis) or radially (about the center of its fastened end) by bending or twisting the narrow end portion 23.

I claim:

'1. In an electric watch powered by an electric battery cell, said watch having a frame, a balance wheel coupled to the frame for oscillatory movement thereabout, a contact pin mounted on the balance wheel and a contact assembly mounted to the frame comprising a body member of an insulative material, a terminal spring having a center portion embedded in the body member, a first end portion extending outwardly therefrom to contact a terminal of the battery and a second end portion extending outwardly therefrom, and an elongated contact spring connected to the second end portion of the terminal spring, said contact spring being intermittently engaged by the contact pin.

2. An electric watch as in claim 1 wherein the body 30 portion has at least one protruding locating dowel to facilitate mounting of the contact assembly to the frame,

said frame having an aperture therein to be engaged by the dowel.

3. An electric watch as in claim 2 wherein the watch includes a train bridge having an aperture therein to be engaged on the locating dowel and the said body portion is positioned between the frame and the train bridge and spaces them apart.

4. An electric watch as in claim 3 wherein the contact spring comprises an elongated flat spring metal member and the body member comprises a molded plastic resin, said center portion of the contact spring having the body member molded thereabout.

5. An electric watch as in claim 4 wherein the second end portion of the terminal spring is bendable so that the position of the contact spring may be adjusted with respect to the position of the balance wheel.

6. An electric Watch as in claim 5 wherein the said bendable end portion is L shaped.

References Cited UNITED STATES PATENTS 2,800,763 7/1957 Ensign et a1. 58-28 FOREIGN PATENTS 328,503 4/ 1958 Switzerland. 642,883 1962 Italy.

RICHARD B. WILKINSON, Primary Examiner E. C. SIMMONS, Assistant Examiner US. Cl. X.R. 58-107