DE1673734A1 - Electronic clock - Google Patents

Description

The invention relates to an electronic watch with a mechanical resonator, the vibrations of which are electronically maintained, and which actuates a counting device which converts the vibrating movements of the resonator into rotary movements of a so-called counting wheel, the resonator having an oscillator, which consists of two symmetry shaped U-bend to a lying, consists in the bend in the manner of a tuning fork passing over legs, and two suitable to compensate for the position error rigid, each associated with one of the flexible legs in the vicinity Λ whose free ends arms ·

Watches of the aforementioned type, in particular those in which the resonator is a tuning fork that has a The pawl actuates a ratchet wheel forming the counting wheel. The disadvantage of such devices is that they are sensitive to shock, in that the pushrods over the latch several teeth of the counting wheel can jump, which of course the counting falsifies

TELEPHONE: 0184057

In order to remedy this shortcoming, such devices have been proposed to be provided with two drive pawls, one for each flexible leg, which alternate each for a half- vibration of the resonator work, whereby the fixed retaining pawl comes in port case «

However, this solution shows the initiation, the adjustment processes, the repairs and the monitoring of the clock on serious defects · If namely the counting wheel Whenever a stationary pawl is stopped, it is sufficient to act on the pawl to slightly adjust the counting wheel and thus without difficulty to determine the position in which the return of the counting wheel takes place in such a way that the unit works seamlessly and harmoniously. However, if the counting wheel is under the action of two drive pawls without a fixed retaining pawl is exposed, such a determination is not possible, and it misses the adjustment by acting on one or other of the vibrating pawls are done, which is extremely difficult is·

The object on which the invention is based is to create a watch whose rate is sensitive to accelerations, i.e. compared to Effects of shocks, is practically insensitive, but does not have the aforementioned deficiencies

The invention is based on a clock in which the resonator is an oscillator made up of two symmetrical to one U-shaped

109803/06 * 1

BAD ORIGfNAL

Bend lying in the bend like a tuning fork There are transitional legs, and two rigid ones suitable for compensating for the positional error, each with one of the flexible ones Legs near the free ends of which have connected arms

Such a configuration of a resonator has the advantage 'that the resonator opposite Positionsauewirkungen, ie · caused under the influence of gravity through the positional changes of the resonator compared to * Frequenzveränderungen'y, practically insensitive let ·

Soait leads the invention to a clock whose gear is opposite the position effects due to the construction of the resonator provided with rigid balancing arms and the at the same time is insensitive to shocks

To solve the problem, it is proposed according to the invention for a watch of the type mentioned at the outset that the counting device on the resonator at a point at least one of its rigid arms is connected, which under the action of the vibrations of the flexible Schenkelsι ait the staring arm is connected »receives a vibrating swinging motion, in such a way · that the counting device withstands accelerations to which the watch, in particular as a result of jolts, is exposed, is practically insensitive

6AD ORIGINAL

The drawing shows an embodiment of the subject matter of the invention

Pig »Fig. 1 is a plan view of a part of a clock, in which only those for the clarification of the invention necessary parts are shown

Pig · 2 is a side view of a detail of Figure 1 "

Figures 3 to 8 show the principle on which the invention is based

Pig · 1 shows a mechanical resonator which consists of two legs made of elastic, resilient plates 1 which are connected to one another by a central part 1a, which in turn is connected to one at 2 on the frame The tongue 1b attached to the watch is firmly connected «The tongue 1b is connected to the central part 1a via an elastic part 1c, the purpose of which is to prevent any kind of oscillation that interferes with the frequency of the desired one The way in which the two flexible plates 1 oscillate in antiphase · The plates 1 each carry at their free end an electrodynamic transmitter 3, which serves to maintain the vibrations of the resonator · As the device to maintain the vibrations is not the subject of the invention, it is not described in more detail here.

./♦ 109809/0661

BATH ORIGINAL

Each of the resilient plates 1 carries one on its free one Rigid arm 4 attached to the end, which swings with the plate with which it is associated and which in turn on his the free end is provided with a balancing mass or a counterweight 5 © As can be seen from Pig · 2, the plates 1 and the arms 4 are arranged in two different planes in order to reduce the area required by the resonator

It should be noted that the transducers 3 also at the location of the compensation noses 5, i.e. at the free ends of the rigid arms 4, could be arranged. In this case the elastic plates 1 would carry balancing weights at their free end » Four compensating transducers arranged at the free ends of the elastic plates and the rigid arms could also be used be provided.

One of the rigid arms 4 carries a pawl ₉ attached to it at 6, which is formed from a leaf spring 7 ± a ± ₉ which is provided with a lug 8 engaging the teeth of a ratchet wheel 9 that forms a counting wheel The resonator is driven step-by-step in the direction of the arrow 1Q and is stopped by a fixed pawl, which is formed from a leaf spring 11 which is attached to the frame of the clockwork at 13 and carries a lug 12 The lugs 8 and 12 can be made of stone, for example ruby, be manufactured ₀ The counting wheel 9 transmits its movement

10SOÖ9 / 06I1

by means of a gear drive, not shown, on the display elements the clock·

Due to the fact that the leaf spring 7 of the drive pawl is on the rigid arm 4 of the Keeonator and not on his flexible leg 1 is attached and also at a special point of this rigid arm, the course of the clock ^ by accelerations, which the clock, especially as a result from shocks, can be exposed, not impaired "

This peculiarity is to be explained »as follows»

The resonator can be constructed in the manner illustrated in FIG. 5 using the same reference numerals as in the Pig * 1 and 2 are schematized

This figure shows a mechanical resonator made of two clamped at one end and free at the other end. elastic plates is formed, and two rigid masses 4 before » bands that are each rigidly connected to the free end of one of the elastic plates 1

It is obvious that when such a resonator _{vibrates, the parts 4 rotate around a point O 0} (Fig. 4), which represents a node and can be referred to as the momentary center of vibration »

109 8 0 9/0611 bad original

When the unit any accelerations is suspended, the resonator is deformed * on the legs or rigid mass 4 can be an immovable point 0 _d (Tig x 4) determine to which each of these legs, or each of these rigid compositions rotates, and the one can denote as momentary deformation a with te

The effects of normal vibration and displacements due to shocks exerted on a single plate are shown in Fig 4 shown

So that the device can work in the desired way when it is used to drive the display elements of a clock by means of a counting device, i.e. so that it is insensitive to impacts, the connection point of the counting device on the resonator must be placed on the deformation center C ^ and it the center of vibration G _{0 must} not coincide with the deformation center G * .

Namely, when the Ansohlusspunkt 6 coincides for the meter with the Yerformungsmitte C _d, this device is, however, "obviously not affected by bumps order for the mechanism to work properly, d _o h. the counting wheel is driven by the resonator during its normal oscillation, the counting device must not be connected to the resonator _{at a point coinciding with its oscillation center G Q}

109809/0881 * ^{/ #}

aein »This results in the aforementioned condition that the The center of the vibration and the center of deformation do not coincide to be allowed to. This condition iat through a careful choice of The shape and size of the rigid masses 4 correlate with the characteristics of the elastic part of the resonator achievable

It should be noted that the aforementioned condition with the requirements ™ ments remains compatible, which the resonator must meet so that its frequency is independent of its position in the gravitational field is·

It must be demonstrated that the center of vibration and the center of deformation do not coincide. For this purpose, these two hits are calculated below »In these calculations, only one half of the resonator is considered, since this is symmetrical * and its central part, as below fc is explained in more detail, on which the calculations have no effect.

1 ·) Calculation of the center of oscillation CL, doh · the distance es If between this center and the free end of the Resonatorsι

As shown in FIG. 5, each rigid mass 4 can be broken down into basic weights P _{1 which} act on the centers of gravity of base elements and are separated from the free ends of the flexible plate 1 by a distance x _± , among other things.

109809/0681

BAD OBlQINAU * ^/

This entire force system can be traced back to the resulting unit of force exerted at χ ■ 0 * This is equal to »

^M o - * i ³ C ₁ + P and P - >

P.

1 ^x

When using the RAYLEIQH method, in which as a hypothesis Assuming that the static deformation is equal to the dynamic deformation, leave the elastic deformation Line of plate 1 using the general curve formula

M (x)

dx ² EJ
calculate; therein is »

E «modulus of elasticity of plate 1 (YOUNG-Modu1)

J «Moment of inertia of plate 1 ™

M (x) β M _Q + Px (in the special case).

Through a double integration and assuming that
χ mC (pigo 6), y ~ 0 and f ^ »0, the puncture y * f (x) can be calculated ©

The calculation of the center of oscillation G depends on Be ~
calculate the distance r _Q , which can be expressed by:

1O98OS / O601

«Ίο -

(y) _x

The calculation leads to

, 2

^Γ ο * M ₀ + i / 2 K

2) Calculation of the deformation center C ^, i.e. dee Abetandes between these? Putty and the free end of the resonator!

Assuming that the initial acceleration acting on the unit 1G is ^ is the effect of this acceleration that illustrated in Pig »7.

As in the previous Pail, the system of forces shown can be traced back to the resulting unit of force exerted at π ■ »0, which is equal to:

^M 'o P » > ^C 1 - η and

The calculations for determining the deformation center C _d , d »h · the distance a r, (Pig · 8), agree in all respects with the previous calculations with the only exception that M ¹ of M _Q due to the fact that the forces lying on the left side of the y-axis in Figs. 7 have changed their sign, deviates

109803/0601

"BAD ORIGINAL _Λ

Thus, by careful choice of the parameters used in the formulas, it is possible to proceed in such a way that r _Q «r. and that thus 0 does not coincide with Oj.

%) Comments on the calculations »

The above calculations assume that the amplitude of the vibrations compared to the lungs of the vibrating part of the resonator is very small, which is practically table always the case

In addition, the elasticity of the ICLttelabsohnitts 1o not taken into account »because they are regarded as reasonable compared to the elasticity of the limb 1, which is not flexible enough to bend can · For the rest, it is sufficient that this elastic part 1c duroh construction at the height of the deformation center G ^, measured in the direction of the ordinates, is arranged «with it the effect of this elastic part on the position of the Deformation center is equal to Hull, which means that the consideration of this elastic part justified in the calculations »

t%) Practical example*

If «/« 0.91 cm and M ₀ in the so-vibration state «515 lyn.CB and M * _o with shocks« - 229 Dyn.cm, the calculation leads to r _Q «0.5 ob and * _d * 1» 0 om

109809 / OeOI

Thus γ _λ and r, do not coincide, so that in Schwin-Od '

state the amplitude at C, is not zero and the Position of (J-, with respect to a plague point of the watch frame remains unchanged with no reference to the size and honor the accelerations to which the unit could be subjected *

Claimsι

Hou / Hf

109809/0611

BATH ORIGINAL

Claims (1)

PA TENTAN WÄL T £ 3kp & j7ng. J & cAard v- / f6iffer-C & orner g> ipi-j7n ₉ . jT & nS-jfäinrid Q ^ ey 1673734 TELEPHONE ft »07 ^ TELEGRAMS: PROP.NDul TELEPHONE 22558S · TELEGRAMS: MOPINDUS 17 803 Berlin, March 13, 196 J EBAUCHES SA,
Neuchätel (Ganton de Neuchttel, Switzerland) Patent claims: 1 · Electronic clock with a mechanical resonator, whose Vibrations are electronically entertained »and a counting device is actuated that records the vibratory movements of the sonator converted into ^ rotary movements of a so-called counting wheel, wherein the resonator is an oscillator, which consists of two symmetrical to a U-shaped bend, in the There is a bend in the shape of a tuning fork, and two rigid ones suitable to compensate for the positional error, each with one of the flexible legs in the It has connected arms near its free ends, thereby characterized in that the counting device (7, 8) on the resonator at a point (6) at least one of its rigid arms (4) is connected, which is under the action of the vibrations the flexible leg (1) to which the rigid arm (4) is connected receives a vibrating oscillating movement, in such a way that the counting device opposes acceleration s to which the watch is exposed, especially as a result of shocks, is practically insensitive. 109809 / 06.01 : 0184057 ¹ W ^ it 2 »Clock according to claim 1, characterized in that the connection point (6) of the counting device to the resonator with the deformation center (C ^) of the unit formed from the rigid arm (4) actuating the counting device and the flexible leg (1) assigned to it coincides with their adjustments due to the effects of the accelerations and the deformation center (C _d ) with their adjustments due to the vibrating oscillations is different from the oscillation center (0) of the unit » 3 · clock according to claims 1 and 2, wherein the counting device consists of a locking mechanism that actuates a ratchet wheel forming the counting wheel, characterized in that the locking mechanism has at least one pawl (8) which is connected to one of the rigid arms (4) at a point (6) » the one with the center of deformation (C ^) that of the rigid arm (4) and the unit formed by the flexible leg (1) supporting it coincides 4 · clock according to claim 1, wherein the resonator at «a Bracket is attached with the help of an elastic part »that connects the two flexible swings with each other U-shaped transverse part is attached, characterized in that that the elastic part (1c) at the level of the connection point (6) of the counting device on the resonator on its Symmetrieaoh.se is arranged * BATH ORIGINAL Blank page