DE1815099A1 - Oscillator as a gear folder for electric watches in particular - Google Patents

Description

It has been known for more than 100 years for gear regulation to use so-called Unraheschwinger clocks, which are trained as a balance wheel, balance beam or the like Torsional oscillators, which alternately receive opposing oscillation impulses and by means of one, by one Coil spring exerted directional momentsa from the extreme Visual swing positions are returned to the ifull position, in which they each receive a new oscillation pulse.

These known torsional vibrators usually work with an oscillation frequency of 2.5 Hz with oscillation amplitudes of about 240 ° per half oscillation. One already has Wristwatches developed with a restless frequency of 5 Hz, which have greater accuracy.

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Postal checking account »Karlsruhe 76979 · Bank account: Deutsche Bank AG. Villingen 146 332

to I D U

To nooh better gong violin sons from asei Devices to use »one has tuning forks or fork-like transducers developed as Irequensnoriüale, those with the ulirs provided with them, gangtic insecurity compared to the balance clocks. by half a to su a whole power of ten. Such oscillators, with pairs oscillating in opposite directions Masses, such as those in the German luslegasohrift 1 030 263 and in the German patent 1 253 642 are shown and described, work2n generally with prequencing between 100 and 1000 Hs, d. H. these swinging systems and / or the clamping to be carried out serving parts emit rays in the hearing area, strongly disruptive vibrations

For example, those in U.S. Patent 3,212,252 shown and described, designed as leaf spring oscillators for clocks, since these oscillators also can be operated at frequencies of several hundred Hs in the audible range.

A reduction in the Sohwingoxigsfrequens the above mentioned types of oscillation systems on 10 to 50 Hz would lead to considerable constructive difficulties, and such Sohwingeyatems would also have very low mechanical stability

To see large clocks, especially alarm clocks, their gear possibly be quiet or almost noiseless, a swing frequency below the listening area

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To achieve the frequency, one has, see the critical patent specification 1 055 053f els, oscillators firmly biased with iron ! Dorsioiisfeand connected dsuermagnetisehe Discs provided, oils electrodynamically in torsional stresses be moved. "Sen has this arrangement ! Disadvantage that it is strange to make the right choice the material of the Soreion office and stable wrapping this Baader has been constant over a long period of time Frequency su arielen, since the materials with the Tire time.

The same applies 1,223,314 Sorsionsbänder used for the "bet oscillators according to the German Aöslegeschrift. In addition, they are suitable because of their Y-shaped cross section IMD the consequent relatively large stiffness more for higher Irequenzen.

It is desirable to design the tried and tested rotary oscillators in the form of internal oscillators in such a way that they can operate at frequencies significantly above the highest oscillation frequency of 5 Hz that has been achieved so far. In an article by Prof. Dr. Glaser published in the journal "Pie Uhr ¹ *, year 1968, issue 22, Tor- und Disadvantages of balance oscillation systems with increased frequency, it is considered unsuitable for balance oscillation systems due to extensive calibration results To strive for higher frequencies than 5 Hz, and it is even emphasized that the greater accuracy of Sohwingungsfrequenzen of 5 Hb is bought at the price of more precise and therefore more expensive production

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By the way, you have already vexßucht, 3fee isclr "!?. Inger sur transitional arrangements IAIT smaller Sota * £ ngamplituuG and higher Sohwingfrequenz operate au _f as beiopielßv / oiso the deuteohe Patent 1,254,089 shows. In an arrangement shown in this patent specification, a flexural oscillator acting on the ear gearing is connected to a torsional oscillator, and a relatively short, stiff spiral spring is provided as the directional element. Such short spiral springs, however, have a very poor linearity, except in this vibration system, the regulation, ie the adjustment to a given vibration frequency, is very difficult.

The invention aims to create an oscillator in the form of a balance-like Drehsokwlngers from with a structurally simple and therefore inexpensive to manufacture construction a significant increase in the oscillation frequency allowed and guaranteed almost noiseless work.

You invention consists in principle that to generate of the direct ion moment several, preferably two Bending bars arranged parallel to the oscillation axis of the torsional oscillator are used, which are fastened non-rotatably at one end and on the other hand with the swivel chair in connection with the actors stand.

The erfindungegemäße design features except duroh iron very einfaohen construction by aas "that it requires few parts and susätzliohe because of low mechanical stress the Direktionsmosient dee ER-

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Component an exact and user-long time Periods of non-changing adjustment of the oscillation freq liens allowed.

Tone of particular importance with regard to the freedom of the buttocks is & 3 that it is siöglicii without additional, the direction of the bending rods, which are preferably designed as big wires, relatively snr rabbit © and the driving moment of the brehsebifisjgers so sweetly possessed, & b3 this is below the auditory frequency of the Sote / lB beispiclswaiGö about 10 Ils 60 Hß un & one

Vibration amplitude of 10 to 20 ° possesses.

The idea according to the invention can be thought of as a "boiled waiae." baaliob. just get confused

The bending bars are a first embodiment siaerends in Mngeriohtimg adjustable with an Ulirwerkaplatiae connected and grabbing rnde ^ nGncIs l & ngsver-EGhiebbariß Bores of an Erehsohwinger firmly connected to an axis of rotation.

According to a second embodiment, the bending rods are firmly inserted into a clockwork plate at one end and firmly connected to a rotary swivel at the other end, which is arranged so that it can slide in the longitudinal direction on a tensioning wire that is fastened between the clockwork plates by means of tensioning elements.

In a third example, the bending bars are flexible at one end with a clockwork plate

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and andemends feat associated with a turning aclger ^ longer, which is firmly connected to an axis of rotation.

The invention is not limited to those indicated above Features limited.

Below are some embodiments of the invention based on the schematic drawings, in which only the understanding of the invention essential ropes are shown. In the drawings demonstrate

Fig. 1 shows a rotary oscillator with immovable in the axial direction Restless and in this slidingly engaging bending wires

Pig. 2 a rotary oscillator with movable in axial direction Restlessly and firmly with this connected bending wires and

3 shows a swivel swinger with which is immovable in the axial direction Restless and firm with this flexural wire connected.

In all the exemplary embodiments, the balance is ripe in a known manner by one in the rull position on him Acting mechanical or electrodynamic drive device at least in one direction of rotation drive pulses granted to him against that by the flexural wires Drektionsaoment exerted abweoheelnd In the one and the other rotation. Haoh achievement

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the end positions, in which the unrest up to the speed When the pen is braked, the directional moment of the wire springs accelerates it to the Hull position, where it either receives a new swivel impulse of the opposite Brehrlehtung or this movement as a result its cash inertia executes

In the execution example according to Flg. 1, the balance wheel 1 is firmly connected to its unrestrained 2, which is rotatably mounted in two bearing bearings 5 »6 pressed into the door plate 3 and into the back plate ^ 4 of a clockwork (not shown). The rear plate 4 is with several, attached to it under the pressure of coil spring *! 7 supporting pressure bolts 9 having threaded lugs 8, to which a base plate 10 is screwed by means of nuts 11, and which has a regulating screw 12 arranged in the center for axial adjustment. In the base plate 10 two bending wires 13 are firmly inserted diametrically opposite, which protrude through recesses 14 of the rear plate 4 through to the balance wheel 1 and penetrate this through holes 16 equipped with olivized perforated stones 15, m

With the alternating swiveling movements of the TJhruhereif s 1 The two bending wires 13 bend alternately in one tmd in the opposite direction and brake thereby the unrest level 1 in the sndsteSungen up to Speed Hull off »and then return it to its zero position accelerate towards su. Me bending wires 13 slide during the visual pivoting movements of the unrest ee 1 in eei-

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nen bores 15 downwards and upwards, nnö. the irritation that occurs here is caused by both of you. fourth, -3Joehsteine 16 largely reduced. As a result, the length of the egg spring 13 and thus the swing frequency of the balance wheel 1 can be adjusted with the aid of the adjustment screw of the base plate 10. The ropes of the rotating watchwinger and the clock parts operated by it are designed in such a way that the vibrations take place with a frequency of about 5 to 10 times higher than that of conventional balances and an amplitude of about 10 to 20 °. At this amplitude, the damping of the oscillation system caused by the friction of the bending wires 13 in the bores 15 »16 of the balance wheel 1 is greatly reduced.

In the example according to Pig. 2, the balance wheel 17 is mounted on a tension wire 20 such that it can be axially displaced by means of olivized perforated stones 19 pressed into a honeycomb-like central part 18. This is carried out through the front panel 21 and the rear panel 22 and with the. Blanks firmly connected via clamping elements 23 to 24. Two bending wires 25, again arranged diametrically, are firmly inserted into the rear plate 22 and rigidly connected to the balance wheel 17. In the gate plate 21 sits a regulating screw 26, which is equipped with a bore 27 for the passage of the tension wire 20 and with an annular permanent magnet 28. The handle 18 of the balance wheel 17 is provided with an annular permanent magnet or a ring 29 made of raagetisbaren material.

The way of working (L «s above-described arrangement

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stisnst about the? I & seuguns the of the unrest 17 and the refluxing dur-oli the bending wires 25 with the arrangement according to-Fig. 1 in the vesentliohen match. Ba however, the bending stress 25 with both the Lower plate '22 as well as ait ösa balance wheel 17 firmly are connected, this leads to the circular one Vibrational movements from relatively small axial movements. In this case, he exercises with the regulating screw 26 of the door plate 21 connected ring magnet '28, in particular in cooperation with the ring magnet or the magnetizable Ring 29 of the TTnruereifs 17 on this one, dsn Directional & ionic moment counteracting rocking movements, which, however, is relatively small compared to the torque caused by the bending wires. Üin the Schwing frequency to be deducted, only the ring network 20 of the Torderplatiiia 21 not lifted the regulating screw 26 or lowered to ground. The hanging magnet 28 holds In addition, the bending seams 25 under slight pretension and relieves you of the gevioht of the B'nruh.

The embodiment according to 2 ¹ Ig. 2 offers the advantage that the friction of the balance wheel 3 17 on the tension wire 20 is significantly less than the friction between the die wires 12 and the balance wheel 1 in the arrangement according to Pig. 1. In this way the quality of the oscillation system is considerably improved. The adaptation of the drive of the balance wheel 17 to its axial movement, which is of course necessary, is teohnisob, easy to carry out and is of no consequence compared to the increase in output .

In the embodiment according to Pig. 3 is the unrest 30

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firmly connected to a tfnruhewelle 31. Piping is mounted in a, pressed into the Torderplatine 32 bushing 33 by means of a Iiochsteins 34 and a Becksteins 35 and in the rear board% by means of a pressed-in in this Iiochsteins 37 and by means of a Becksteins 38 with one of the rear board en 36 screwed Deokplättehen 39 connected is. The two diametrically arranged bending wires 40 are firmly connected, on the one hand, to the balance wheel 30 and, on the other hand, to two spring clips 4t screwed to the backplate 36.

In the hole stone 34 and the cap stone 35 containing Socket 33 of the front plate 32, a permanent magnet 42 is inserted coaxially.

The arrangement described above also works Ibesüglioh the swinging movements and the return movements of the unrest as well as the disorder according to FIGS. 1 and 2. It has the advantage over these, that as a result of the attachment associated with the balance wheel 30 Flexural wires 40 on the spring clips 41 of the rear plate 36 both provide sliding friction between the balance wheel and a tension wire moving the bending wires, as Axial movements of the unrest can also be avoided. However, the spring clip 41 must be sufficiently rigid be trained. The from said bracket over the bending wires 40 on the balance wheel 30 and exerted on the bearing 37 - 39 of the ünruhevelle 31 Axial forces are created by the permanent magnet 42 of the socket 33 of the front plate 32 compensated.

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Claims (1)

Pat inapplicable 1. Oscillator as a gear folder, in particular electric eyes in the form of a preferably as a TJnruherifer _? Balance beam or SgI. swiveling swivel, which is mechanically or electrodynamically driven against a returning birection moment, characterized in that, during the generation of the directional moment®, several "pre-test orphans" are arranged parallel to the axis of oscillation of the breeder (1, 17 »30). Bends © -» ® ( serve 13s 25, 40), the one end taakfeet befesm ^ S siad and andernenäs _f with the Drehsohwinger (1. H ₁ 30) are in Wlrkverbindung. 2. Ossiilator according to claim 1, characterized in that aas birection moment of the bending rods (13, 25, 40), which are preferably designed as bending wires, are relatively pure and sum driving torque of the torsional vibrator -; © ο. ftbaaufaniest i @ t that the Brehsohwinger one below Sohwing frequency lying in the listening area τοπ. for example about 10 to 50 Herts and a vibration amplitude of about 10 to 20 °. 3. oscillator according to claims 1 and 2, characterized in that that the bending rods (13) are connected at one end to a frame part (4, 10) and other 0098 3 9/06 80 ends longitudinally displaceable in Boiirangen (16) one fixed with a rotary shaft (2) connected rotary shaker (1) intervene. .4. Oscillator according to claims 1 Ms 3 »characterized in that all bending bars (13) are firmly inserted into a base plate (10) which can be adjusted in the direction of the bending arm, in particular by means of spring-loaded bridging bolts (7-9) with a watch plate (4 ) and an adjusting screw (12) which serves to change the distance between the base plate and the circuit board and thus adjust the scanning frequency. 5. Oscillator according to claims 1 and 2, characterized in that the bending rods (25) are firmly inserted at one end into a clock face plate (25) and at the other end are firmly connected to a rotary vision system (17) which is slidable in the longitudinal direction on a tensioning wire (20) fastened between the clockwork plates (21, 22) by means of tensioning elements (24) is arranged 6. Oscillator according to claims 1, 2 and 5 »characterized in that in a circuit board (21) opposite ei nem average Ifabenteil (18) of Drehsohwingers (17) the matching of the resonant frequency serving, comprising a permanent magnet (28) Rogulierschraube ( 26), through the adjustment of which the force of attraction exerted by the permanent magnet (28) on the housing (18) of the torsional vibrator (17) made of magnetizable material can be changed * ■ -5- 009839/0680 7. Oscillator according to claims 1, 2, 5 and 6, characterized in that the Saber part (18) of the rotary oscillator (17) has a permanent magnet (20) opposite the permanent magnet (28) of the regulating screw (26). 8. oscillator according to claims 1 and 2, characterized in that that the bending rods (40) at one end yielding to a clockwork plate (36) and at the other end firmly with it a rotary oscillator (30) are connected, which is fixedly connected to an axis of rotation (31). 9 oscillator according to claims 1, 2 and 8, characterized in that that the bending rods (40) to torsionally rigid Eederbügeln (41) are attached, which are rigidly connected to the * earpiece board (36). 10. Oscillator according to claims 1, 2.8 and 9, characterized characterized in that in the other TJhrwerk plate (32) coaxially to the axis of rotation (31) of the Drehsohwingers (30) a permanent magnet (42) is arranged in a bushing (33) containing axle bearings (34t 35) the clockwork plate (32) is housed. 009839/06 8 0 Blank page