US3672153A

US3672153A - Miniaturized battery-operated tuning-fork timepiece

Info

Publication number: US3672153A
Application number: US60271A
Authority: US
Inventors: William W Mutter
Original assignee: Bulova Watch Co Inc
Current assignee: Bulova Watch Co Inc
Priority date: 1970-08-03
Filing date: 1970-08-03
Publication date: 1972-06-27
Anticipated expiration: 1989-06-27
Also published as: CH1137171A4; FR2101203B1; GB1337814A; DE2138878C3; DE2138878A1; FR2101203A1; DE2138878B2; CH541831A

Abstract

A miniaturized electronic watch including a tuning-fork resonator which is sustained in vibration by a battery-energized electronic drive circuit and whose vibrations are converted into rotary motion for operating dial pointers. The tuning fork, which is mounted on a pillar plate, is constituted by a pair of tines having a bow-legged formation to define a circular zone. The battery for the electronic drive circuit is seated in the zone within a circular well formed in the pillar plate, thereby conserving space.

Description

United States Patent Mutter v [4 1 June 27, 1972 [s41 MINIATURIZED BATTERY-OPERATED FOREIGN PATENTS 0R APPLICATIONS TUNING'FORK TIMEPIECE 444,766 2/1968 Switzerland ..ss/2s BA [72] Inventor: William W. Mutter, Paramus, NJ.

Primary Examiner-Richard B. Wilkinson [73] Asslgnee: Bulova Watch Company, Inc., New York, Assistant m C. Simmons Attorney-Michael Ebert [22] Filed: Aug. 3, 1970 I ABSTRACT [2]] Appl' A miniaturized electronic watch including a tuning-fork resonator which is sustained in vibration by a battery-ener- 52 U.S. Cl. ..ss/23 TF, 58/23 BA, 310/25 sized electronic drive circuit and whose vibrations are 51 1 Int. Cl ..c04 3/00 vmed into rotary motion for l s dial Pointers The [58] Field of semli ..ss/23; 310/25, 36, 37 8 Mk, which is mount! on 3 Pillar P is wmfimwd by a pair of tines having a bow-legged fonnation to define a circu- 6 i lar zone. The battery for the electronic drive circuit is seated [5 1 References C M in the mile within a circular well formed in the pillar plate,

UNITED STATES PATENTS r y c nserving space.

3,469,389 9/1969 Nakai et ai. ..58/23 TF 5 Claims, 4 Drawing gum Ice [0 24 L M film/v Ely/1Y0 FOQK P'A'TE'N'TEDJum 1912 3.672. 153

sum 2 or 2 MINIATURIZED BATTERY-OPERATED TUNING-FORK- TIMEPIECE RELATED APPLICATION This application is related to commonly assigned copending application of Dale R. Koehler, Ser. No. 45,326, filed June 11, 1970, now U.S. Pat. No. 3,622,819 and entitled ELEC- TROMAGNETIC TRANSDUCER.

BACKGROUND OF THE INVENTION This invention relates generally to battery-operated electronic timepieces, and more particularly to a miniaturized.

electronic watch including a tuning-fork resonator whose vibrations are converted into rotary motion for operating dial pointers, the resonator being sustained in vibration by a battery-energized electronic drive circuit.

In electronic timepieces of the type disclosed in U.S. Pat. Nos. Re. 26,322 and 2,971,323, a battery-energized transistor drive circuit acts through an electrodynamic transducer to sustain the vibratory motion of a tuning fork. This motion is transferred by a pawl and. ratchet mechanism to a rotary movement including a gear train for turning the dial pointers or hands.

In tuning-fork electronic watches of the type heretofore known, the structural arrangement or layout had been such as to preclude a reduction in the diameter and thickness of the watch movement to a degree making it possible to house the movement within a ladys watch case. Though such watches have been manufactured in relatively large models having masculine appeal, it has ,not heretofore been feasible to miniaturize the dimensions to a point rendering vthe watch acceptable to ladies.

One important obstacle standing in the way of miniaturization is the power cell for the electronic drive circuit. This single-cell battery, which is round and button-like, occupies a relatively large portion of the useful volume of a watch movement. In movements of the type heretofore known, the cell and tuning fork are placed-side by side; hence the size of the movement must be suflicient to accommodate both the cell and fork. In order to reduce this requirement, it has been the practice to bow thetines inwardly and to fit the cell within the concave area formed by one of the tines, but this expedient effects only a slight saving in space.

SUMMARY OF THE INVENTION In view of the foregoing, it is the main object of this invention to provide a tuning-fork timepiece movement which is highly compact and therefore suitable for ladies'-model watches as well as other forms of miniature timepieces.

More specifically, it is an object of the invention to provide a timepiece movement of the above type in which the battery cell is disposed between the tines of the tuning fork to conserve space without in any way impairing the efficiency of the movement.

Also an object of the invention is to provide a movement of the above type in which the tines of the fork carry the magnetic elements of electrodynamic transducers, the elements cooperating with stationary coils projecting from plastic modules, one of which modules incorporates the components of the electronic drive circuit, thereby effecting further space economies.

Briefly stated, these objects are attained in a miniaturized movement including a tuning!-fork resonator whose vibrations are converted into rotary motion for operatingthe hands of the timepiece, the fork being mounted on the rear side of a pillar plate. The fork is constituted by a pair of .tines having a bow-legged formation to define a circular zone which is occupied by the battery cell for energizing the electronic drive circuit, the cell being seated in a well formed in the pillar plate.

2 ourusr: or THE DRAWING For a better understanding of the miniaturized, batteryoperated tuning-fork timepiece of the present invention, reference is made to the followingdetailed description to be read in conjunction with the accompanying drawings, wherein: a

FIG. I is a schematic representation of the electrical and mechanical components of a miniaturized watch movement in accordance with the invention;

FIG. 2 is an isometric view of a preferred embodiment of said movement as seen from the rear of the pillar plate;

FIG. 3 shows a portion of the movement, partly in section, the cover of the housing for the timing train being removed to reveal the gears thereof; and m FIG. 4 is'an isometric view of the same movement as seen from the front or dial side of the pillar plate.

DESCRIPTION OF THE INVENTION Referring now to FIG. I, the electrical and mechanical components of a miniaturized watch movement in accordance with the invention are illustrated schematically. The movement includes a tuning fork generally designated by numeral 10, having two tines 10A and 10B and a re-entrant mounting stern 10C which is secured to the pillar plate of the movement.

Tines 10A and 103 have a bow-legged formation to define a circular zone, within which is installed a replaceable, singlecell battery 1 1. Battery 11 is round and button-like and is concentrically disposed within the zone, the narrow annular spacing between the periphery of the battery and the tines being sufficient to permit the tines to vibrate freely.

Secured to the free ends-of the tines 10A and 10B are magnetic elements 12A and 128, preferably of the type disclosed in the above-identified copending application. These elements coact with a stationary drive coil 13 and a stationary sensing coil 14 to provide electrodynamic transducers. In practice, the drive coil may be formed by two series-connected sections, one of which is wound adjacent sensing coil 14.

Associated with the transducers is a plastic module EM within which is encapsulated the electronic drive circuit whose components are transistor 15 and a resistancecapacitance network 16. The base B of the transistor is connected through network 16 to one end of sensing coil I4 whose other end is connected through a lead "to one end of drive coil 13. The other end of drive coil 13 is connected by conductor S to one terminal of battery 11, whose other terminal is connected to the emitter E of the transistor 15.. The connection between emitter E and the other battery terminal is effected through the pillar plate of the movement.

The'manner in which the battery-energized electronic drive circuit contained in module EM acts to sustain the fork in vibration is described in the above-identified prior patents and will therefore not be repeated. The concern of the present invention is not with the electronic circuit but with a movement layout which is calculated to make optimum use of the available space.

Thevibratory action of tuning fork 10 is converted into rotary motion by means of an indexing finger 18 extending from a post 19 mounted on a bracket 20 attached to tine 10A, the finger engaging the ratchet teeth of an indexv wheel 21.

Reverse motion of the wheel is prevented by a pawl 22 extending from a post 23 mounted on the pillar plate. Index wheel 21 is operatively coupled to a timing gear tr'ain, generally designated by numeral 24, which in turn operates the dial train 25 of the movement for rotating the hands of the timepiece, the gear ratios being such as to convert the vibrations of the fork, which occur at a rate determined by the resonance characteristics thereof (i.e., 440 Hz), into rotary motion, causing the hour and minute hands to indicate time correctly.

Referring now to FIGS. 2, 3 and 4, showing the actual movement, it will be seen that the movement block is designed to have a tonneau shape, whose profile is outlined by the dashed lines. Tuning fork 10 is mounted on the rear side of a pillar plate 26, stem C being screwed thereto. As best seen in FIG. 3, battery 11 is received in a circular recess of well 27 formed in the circular zone whose boundaries are defined by the bow-legged tines 10A and 10B.

interposed between

magnetic elements

12A and 12B and the periphery of the battery is a shock bridge 28 having ears 28A and 28B overlying tines 10A and 10B and sewing to limit vertical movement thereof as a result of shock forces. Tines 10A and 10B are provided with bores 10A and 103' within which are disposed pins (not shown) anchored on the pillar plate and serving to prevent excessive deflection of the tines in the oscillation plane of the fork.

Because battery cell 11 is positioned within the zone defined by the tines of the fork, the overall space in the horizontal plane occupied on the pillar plate by the fork and cell is no greater than that occupied by the fork alone. Battery cell 11 has two terminals 11A and 11B on the opposing faces thereof, the bottom terminal 11A resting on the bed of well 27 and thereby making electrical contact with pillar plate 26. The top terminal 118 of the cell, which is elevated relative to the tines of the fork, is engaged by conductor S which bridges over the tines of the fork.

Conductor S in the form of a flexible metallic strap formed of phosphor bronze, stainless steel or other conductive material, and is provided with resilient fingers S, and S, to ensure good electrical contact with the cell and also to hold the cell in place. One end of strap S is pivotally mounted on an insulated post 29, the other end having a hook formation adapted to latch onto the circular groove of a terminal 30 connected to drill coil 13, as shown in FIG. 1. Terminal 30 is mounted on a plastic module CM from which drive coil 13 projects. Thus, to replace the battery, one has merely to unlatch strap S and to swing it away from the battery, thereby making it possible to remove the battery from the well and to insert a fresh battery.

Sensing coil 14 is mounted on and projects from module EM which is mounted on the pillar plate. As pointed out previously, module EM incorporates all of the necessary electrical components of the drive circuit other than the battery, the connections from coil 14 to these components being included in module EM. As will be evident from FIG. 1, drive coil 13 requires a connection to battery 11 by way of conductor strap 8 as well as a connection by way of lead 17 to sensing coil 14. Drive coil module CM includes a terminal 30, for connection to conductor strap S, and as best seen in FIG. 4, a terminal 31 for connection to conductor 17 leading to terminal 32 on the electronic module EM which includes the connection to sensing coil 14.

Thus each of the modules may be readily installed or replaced, thereby facilitating assembly or disassembly without the need for soldering or unsoldering wires. The only connection which is made after the modules are mounted in place is that of lead 17 which takes the form of a rigid metallic strip whose extremities have bores to receive the threaded posts of terminals 31 and 32. Lead 17 serves a dual function, for it provides the only necessary electrical connection between the modules and also acts as a structural strut to maintain the position of the modules which extend from the pillar plate.

The vibratory action of the fork is converted to rotary motion by index finger 18 which engages the teeth of index wheel 21. This wheel drives the timing gear train generally designated by numeral 24, which is contained in a housing 33 formed on the rear side of the pillar plate adjacent module EM. Index wheel 21 is keyed to a shaft bearing a screw gear 34 which in turn transmits motion to the other gears in the timing train.

As best seen in FIG. 4, the dial train, generally designated by numeral 25, is mounted on the front or dial side of the pillar plate and includes a minute wheel 35 and an hour wheel 36. The hour hand (not shown) is mounted on tube 37, which is concentric with cannon 38 from which the minute hand (not shown) extends. The movement is set in the usual way by means of a stem 39 which engages the minute wheel via a clutch 4Q and a tpinion 41. Because the dial train is disposed on the dial side of e pillar plate in an area partially over ymg the tuning fork and battery combination, this too makes possible a more compact arrangement.

While there has been shown a preferred embodiment of the miniaturized, battery-operated tuning-fork timepiece of the present invention, it will be understood that many changes and modifications may be made therein without departing from the essential spirit of the invention.

I claim:

1. An electronic timepiece movement comprising:

A. a pillar plate,

B. a tuning fork mounted on one side of the plate, said fork being constituted by a pair of tines having a bow-legged formation to define a circular zone whose periphery is demarcated by the pair of tines, the tines of said fork being spaced inwardly from the opposing edges of the pillar plate to define two module zones,

C. an electronic drive circuit coupled to transducers associated with said fork to sustain said fork in vibration, said transducers being constituted by magnetic elements attached to said tines and stationary drive and sensing coils associated with said elements, said coils being supported on respective modules occupying said two module zones and secured to said pillar plate,

D. a battery cell for energizing said circuit, said cell having a round, button-like shape and being seated in a well formed in said pillar plate concentrically within said zone, the diameter of said cell being slightly smaller than that of said zone whereby said tines are free to vibrate, the available space in said zone being otherwise fully utilized, and

E. means to convert the vibratory motion of said fork into rotary motion for operating the hands of said timepiece.

2. A movement as set forth in claim 1, wherein the components of said electronic circuit are encapsulated in one of said modules.

3. A movement as set forth in claim 2, further including a resilient conductive strap engaging the top terminal of said cell and bridging over the tines of the fork, the strap being connected to a terminal on the other of said modules for connection to the associated coil.

4. A movement as set forth in claim 1, wherein said means to convert the motion of the fork includes a timing train disposed on said one side of the plate, which train is operatively coupled to a dial train disposed on the opposite side thereof.

5. A movement as set forth in claim 1, wherein a connection is made between said modules by means of a rigid metallic strip which also acts as a stabilizing strut to maintain the position of said modules on said pillar plate.

i M i l i

Claims

1. An electronic timepiece movement comprising: A. a pillar plate, B. a tuning fork mounted on one side of the plate, said fork being constituted by a pair of tines having a bow-legged formation to define a circular zone whose periphery is demarcated by the pair of tines, the tines of said fork being spaced inwardly from the opposing edges of the pillar plate to define two module zones, C. an electronic drive circuit coupled to transducers associated with said fork to sustain said fork in vibration, said transducers being constituted by magnetic elements attached to said tines and stationary drive and sensing coils associated with said elements, said coils being supported on respective modules occupying said two module zones and secured to said pillar plate, D. a battery cell for energizing said circuit, said cell having a round, button-like shape and being seated in a well formed in said pillar plate concentrically within said zone, the diameter of said cell being slightly smaller than that of said zone whereby said tines are free to vibrate, the available space in said zone being otherwise fully utilized, and E. means to convert the vibratory motion of said fork into rotary motion for operating the hands of said timepiece.