DE1948659A1 - Method and device for generating periodic mechanical vibrations - Google Patents

Description

Etablissement Procor, Vaduz / Principality of Liechtenstein, Kirchstrasse 749

"Method and device for the production of periodic mechanical vibrations "

The invention relates to a method for generating periodic oscillations by means of electrical energy, and a device for carrying out the method.

There are methods and devices for generating periodic oscillations "known" in which a ferromagnetic Body is exposed to a changing magnetic field. The control of the magnetic field takes place with the help of active amplifier elements, such as

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Electron tubes or transistors that work in an electrical Circuit with other passive elements, such as magnetic coils, Capacitors and ohmic resistors are arranged.

It is the object of the invention to provide a method and a device indicate that allow a mechanical vibration ^ to be generated, with the exception of the power source on any active elements can be dispensed with, and the energy losses, caused by ohmic resistances, on an ivüninrum are reduced so that the efficiency is as high as possible.

The method according to the invention is characterized in that an electrically conductive body to be excited to vibrate Influence at least one thing through the movement of this body is automatically exposed to alternating electrical fields "

The inventive device for carrying out this method is characterized in that at least one opposite at least two electrodes is arranged to be movable to form a mechanical vibrating assembly and resiliently _f that the movement distance is at least said movable electrode limited in the direction of the other electrode by themselves, wherein in When the two electrodes meet, a charge equalization takes place and that the two electrodes are intended to be connected to the positive pole or the negative pole of a power source.

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The invention is explained in more detail below with reference to the "accompanying drawing", for example. Show Ss

Fig. 1 shows a basic representation of a device with two electrodes, one of which can be excited to carry out mechanical vibrations,

Pig. 2 another embodiment with two electrodes that both can be excited to vibrate,

Fig. 3 shows a similar embodiment with three electrodes, of which two "are movable, and

4 shows a further embodiment with three electrodes, only one of which is movable.

To obtain a structure that can vibrate, it is necessary to to mount a mass resiliently so that the mass can give its kinetic energy to the resilient organ, and then after the complete release of the kinetic energy of the mass, the static energy stored in the resilient organ is in turn completely transferred to the mass in the form of kinetic energy. It is further to maintain the vibration necessary to replace the inevitably occurring energy losses.

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In Fig. 1 is a device with an oscillatable Arrangement for driving a clockwork shown in principle. An electrode 2, which at the same time is mainly the oscillating mass, is attached to an elastic tongue 1. That the other end of the tongue 1 is rigidly connected to a block 3. The electrode can swing back and forth in the direction of arrow 4, when stimulated to do so. For this purpose there is a second Electrode 5 at a distance from movable electrode 2 provided, which by means of a carrier 6 also on block 3 is attached .. '.,.

The tongue 1 and the carrier 6 are electrically conductive so through the terminals 7 and 8 the electrodes, power from one voltage source (not shown) for charging these electrodes can be supplied ". The block 3 consists of Insulating material.

The two opposing electrodes 2 and 5 form a capacitor, the capacitance of which is dependent on the size of the opposing surfaces of the electrodes and the distance between them. This capacitor is charged via the connections 7 and 8, so that the electrode 5 has a positive potential and the electrode 2 has a negative potential. The effect of the electric field between the two electrodes pulls them against one another, the movable electrode 2 being moved as far as the electrode 5 against the force of the elastic tongue 1. '

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As soon as the electrodes touch each other, as shown in dashed lines, the potential difference between them "Both are balanced and the electric field is rapidly reduced. The electrode 2 is only exposed to the force of the stretched elastic tongue 1 and can therefore swing back, where, thanks to the inertia, they move beyond their state of repose into the one also shown in dashed lines second end position reached. ·

The voltage source to which the electrodes are connected is high-resistance or through an upstream ohm ^! See resistance has been intentionally made high-resistance, so that the short-circuit current is limited at the time the electrodes are touched and, on the other hand, the capacitor, formed by the electrodes, after these two no longer touch each other as a result of the moving electrode's backward movement, is recharged with a delay. This internal resistance is so great that the capacitor is charged to practically the full voltage of the voltage source after reaching the middle position of the electrode 2 at the earliest.

When choosing the effective internal resistance, it is also important to consider that the capacitance of this capacitor changes, which also changes the charging time.

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In fig. 2 another embodiment is shown in principle. It only differs from the former in the also resilient arrangement of the second electrode 5 ', which is attached to an elastic tongue 1 'so that both electrodes 2 and 5' move in opposite directions can perform, with each other for the purpose of charge exchange touch once per oscillation process «, as shown in dashed lines. These electrodes are also used for Connection to a high-resistance, not shown. Voltage source certainly, .

In the embodiment according to FIG. 3, there are two of one Web 9 spaced electrodes 10 and 11, electrically isolated from one another, at the free-swinging end of a elastic tongue 12 arranged. These electrodes are connected via flexible conductors 13 and 14 to the connection terminals 15 and electrically connected so that corresponding charges are supplied to them from a voltage source (not shown) can be.

Between these two movable electrodes 10 and 11 is a stationary third electrode 17 is arranged in an electrically insulated manner. There is between the two outer electrodes 10 and 11 a voltage difference and if by a one-time external influence, for example, the electrode 10 with the

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middle electrode 17 was brought into contact, so takes the latter has the same polarity and then the electrode 10 is repelled by the electrode 17 and at the same time the electrode 11 is attracted to the electrode 17 because the latter two have opposite charges. These two forces acting in the same direction direct the Tongue 12 in the opposite direction until the electrode 11 comes into contact with the electrode 17, a charge exchange takes place and the aforementioned Repeat the process in reverse.

In contrast to the two first-mentioned embodiments, in the embodiment according to the Pig «3 act in every direction of movement the vibrating mass forces on them and during the brief contact with the electrodes 10, 17 and 11, 17 only a small equalizing current flows, which is independent of the resistance of the circuit electrode 10, conductor 13, terminal 15, voltage source, terminal 16, conductor 14 and electrode 11. The voltage source only needs to be abruptly transferred by the electrode 17 Electrode 11 captured electrons which they transfer to the electrode 10 deliver, deliver later. The efficiency of this device is therefore extraordinary. "

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FIG. 4 shows a modification of the embodiment according to FIG Fig. 3, in that the two outer electrodes 18 and 19 are fixedly arranged and the middle electrode 20 on the is attached to a swinging end of the tongue 21 ". The electrode 20 is electrically isolated from the remainder of the arrangement. The function of this version is fundamental the same as that according to FIG. 3, only with the difference that the middle electrode 20 moves back and forth between the two outer electrodes 18 and 19.

Contact tips 22 and 24 made of a burn-resistant, conductive material are arranged on the end faces of the electrodes. They allow yourself to be when using a voltage source of, for example, 1000 volts, the electrodes do not have to come close to each other for charge exchange by already being at sufficiently small distance between the contact tips a spark skips, which is sufficient to balance the charge. In this way the harmonic oscillation of the mass is not disturbed by the collision of the electrodes ..

For partial decoupling of the vibration energy, a TJtransfers are switched on in the circuit, which converts the current surges that occur during the charge change into an alternating voltage that is applied to the terminals of the secondary winding this transmitter can be removed. At the

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resilient tongue can be arranged a pawl which engages in the asymmetrical toothing of a wheel, the the latter is advanced by one tooth with each oscillation.

Since a voltage source with a relatively high voltage is used to generate the force required to oscillate the electrodes, at least 100 volts is necessary, an isotropic generator is advantageously used, such voltage sources can be accommodated in the smallest of spaces, and still deliver a terminal voltage of more than 1000 volts.

The electrical circuit of these devices described above is very simple and the necessary changes in direction of the electric field are made by the movements the electrodes run by itself. The big advantage of this device is that it has a vibration generator can be accommodated in the smallest of spaces and which still works with a very high degree of efficiency.

The device described above can in particular also be used to drive a clockwork.

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Claims (10)

Claims [Ij method for generating periodic, mechanical Vibrations by means of electrical energy in a clockwork, characterized in that a to be excited to vibrate electrically conductive body to the influence of at least one that changes automatically due to the movement of this body, electric field is exposed. 2. The method according to claim 1, characterized in that the changing of the field by charge exchange in the end positions of the movable body takes place. 3. Device for performing the method according to claim 1, characterized in that at least one of at least two opposing electrodes to form a mechanical vibration arrangement is movably and resiliently arranged that k at least the movement distance of this movable electrode in the direction of the other electrode is limited by the latter itself, with charge equalization taking place when the two electrodes hit each other, and that the two electrodes are intended to be connected to the positive pole or the negative pole of a power source. 00 98 18 / 11SS - li - 4. Apparatus according to claim 3 »characterized» that the movable electrode is arranged on a tongue that can vibrate. 5 «Device according to claim 4, characterized in that the ohmic resistance of the circuit, formed by the voltage source, the connections to the electrodes and the Electrodes themselves, in the event of a short circuit between them, is at least so large that the capacitor formed by the aforementioned Electrodes at an average distance from the same, during half the period of oscillation of the movable electrode at half Voltage value of the EMF of the voltage source is charged. 6. The device according to claim 3 »characterized in -. That both electrodes are movable and each arranged on a resilient tongue. 7. Device according to claim 3, characterized in that two electrodes, electrically insulated from one another and kept at a distance by a web, are arranged on a resilient tongue, that a third stationary electrode is provided between these two electrodes, that the movement path of the two movable electrodes is through the stationary electrode is limited on both sides and that means are provided for connecting the movable electrodes to one pole of the voltage source each. 009818/1195 8. Apparatus according to claim 3> characterized in that the movable electrode is arranged between two electrically isolated, fixed and spaced electrodes is that the movement distance of the movable electrode is limited on both sides by one of the stationary electrodes and that means. for connecting the stationary electrodes are provided on each pole of the voltage source. 9 · Device according to claim 3, characterized in that with part of the resilient tongue or with the movable tongue Electrode connected organs for decoupling and transferring part of the mechanical vibration energy to a wheel are provided. 10. Device according to one of claims 3 to 5, characterized characterized in that they convert at least part of the mechanical vibration energy into transducers includes electrical energy. 009818/1 195