DE1523914A1 - Vibration device from a primary and a secondary vibration system, especially for clockworks - Google Patents

Description

Bernard GOLAY SA LAUSANNE (Switzerland)

Vibration device made up of a primary and a secondary Vibration system, especially for clockworks.

In the watch industry it is known as time normals and £ or their Drive to use two different transducers, whereby the transducer serving as the time standard is the transducer acting as the exciter synchronized and the oscillation of the oscillator serving as a time standard is maintained electromagnetically, that is by means of an electrical energy source and a corresponding circuit.

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In contrast, the present invention relates to a vibration device comprising a primary and a secondary vibration system, however, no electrical energy source is required for the excitation of the primary oscillation system. This he « according to the vibration device is characterized by that the primary vibratory system receives the energy required to maintain its vibration only from the secondary Vibration system is transmitted without any other Energy source is necessary.

In the accompanying drawing, an embodiment of the invention is shown schematically.

Here sits in a solid base 1, the mass of which is relatively big in. Compared to the vibration systems is, a Vibration system I in the form of a tuning fork 2, the two arms of which carry the oscillating masses 3 and 4 at their ends. On this sub Position 1 also has a secondary oscillation system II, which consists of a vibrating blade 5, which carries a vibrating mass 6 at its end. The oscillation system I contains nothing else Elements and consists only of the tuning fork 2 shown, while the oscillation system II mechanically or electrically by not shown Bodies is excited. Further is the apparent energy

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the tuning fork 2 by at least an order of magnitude higher than that of the swinging blade 5.

The oscillating mass 3 of the tuning fork is of the oscillating mass 6 of the The oscillating blade 5 is separated by a gap 7 which is smaller than the maximum amplitude that can be obtained from the oscillating mass 6 can be expected at this point under normal working conditions. As soon as the vibrating blade 5 is excited with this arrangement, hits the oscillating mass 6 after a few oscillations against the oscillating mass 3 of the tuning fork, which then oscillate in turn begins. This results in a shock movement, which is the secondary Vibration system brakes and the primary vibration system supports and maintains. This takes place via the intermediate space 7 an energy transport from one vibration system to the other in a purely mechanical way. Furthermore, since the apparent energy of the tuning fork is much higher than that of the vibrating blade, will the oscillation frequency of the oscillating blade is synchronized by the natural frequency of the tuning fork. In practical application of the oscillation device according to the invention in watch technology, the tuning fork generally has an oscillation frequency that is a is a multiple whole of the oscillation frequency of the oscillating blade. For other areas of application, however, it is possible for the

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m on,

select the same oscillation frequencies for both oscillation systems, so that in this case the gap 7 can be reduced to a value close to or equal to zero.

Instead of connecting the two oscillating systems by elastic An elastic connection can also be used to establish a joint, for example a spring, which also has a magnetic connection of permanent magnets which are arranged opposite one another on each of the oscillating masses 6 and 3.

Furthermore, there are numerous possibilities in the selection of the vibrating Elements given in the two vibration systems. Instead of one vibrating blade and a tuning fork, two tuning forks can also be used, whereby to avoid errors A resonator in the form of an H ™ or O can also be used to set up the tuning fork. \

Such a vibration device is for numerous fields of application usable and particularly suitable in watch technology and for the production of frequency filters or frequency dividers.

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Claims (13)

PATENT CLAIMS 1. Vibration device consisting of a primary and a secondary Vibration system, in particular for clockworks, characterized in that the primary vibration system (i) has the required energy to maintain its vibration is transmitted solely from the secondary vibration system (II). 2. Vibration system according to claim 1, characterized in that the primary vibration system (l) the secondary vibration system (II) synchronized. 3. Vibration device according to claim 1, characterized in that that the oscillation frequency of the primary oscillation system (l) is a whole multiple of the oscillation frequency of the secondary Oscillation system (ll). 4. Vibration device according to claim 1, characterized in that that at least one of the vibration systems consists of a resonator in the form of a tuning fork (LZ). 5. Vibration device according to claim 1, characterized in that that at least one of the oscillation systems consists of a mechanical resonator, the oscillating masses of which are two in the oscillation plane 909829/0834 Have axes of symmetry arranged perpendicular to one another. 6. Vibration device according to claim 5, characterized in that that the mechanical resonator has the shape of an O or H. 7. Vibration device according to claim 1, characterized in that that the secondary oscillation system (II) is electrically excited. 8. Vibration device according to claim 1, characterized in that that the secondary oscillation system (H) is mechanically excited. 9. Vibration device according to claims 1-8, characterized in that that the energy transfer from the secondary oscillation system (il) on the primary oscillation system (i) through the impact of an oscillating one Mass of the secondary oscillation system takes place against an oscillating mass of the primary oscillation system. 10. Vibration device according to claim 1 · 8, characterized in that that the energy transfer from the secondary vibration system star (Xl) on the primary oscillation system (i) via an elastic connection he follows. 11. Vibration device according to claim 1 · 8, characterized in that that the energy transfer from the secondary oscillation system (U) 909829 / 083A on the primary oscillation system (i) magnetically by means of a pair Permanent magnets are carried out, which are opposite to each other on an oscillating mass of the secondary and the primary oscillation system are arranged. 12. Vibration device according to claim 11, characterized in that that homopolar, repelling magnets are used. 13. Vibration device according to claim 11, characterized in that non-equipolar, attracting magnets are used. 909829 / 0B3A Blank page