DE136841C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The invention is based on the fact that if a The circuit is kept at a low temperature, which is excited in the same Vibrations are increased to an extraordinary degree and for longer periods of time continue. This gives the possibility of new effects. to achieve that so far were attainable.

The invention therefore essentially consists in a method for generating electrical energy Vibrations in such a way that the electrical system of vibrations is replaced by artificial ones Medium (liquid gases, cold mixtures or the like.) Maintained at a low temperature for the purpose of reducing the electrical line resistance, the attenuation to reduce the vibrations and thus the capacity of the system for the To increase vibrations.

The best and most expedient embodiment of the invention is to use the freely oscillating, circuit or conductor with a low temperature to be maintained Surrounding suitable coolant. The coolant can be any refrigerant mixture or liquid air or the like.

In the accompanying drawing, an embodiment of the device used for applying the present invention is illustrated in two representations. One of the two devices can serve as a transmitter and the other as a receiver. One of these is surrounded by a coil A and the other by a coil A ¹ with a few turns and low resistance. The former coil, which is assumed to be part of the transmitter, is connected to a suitable power source, while the other coil .4 ^{1 is placed} in a receiving circuit. In each device there is a flat spiral wound coil B or B ¹ , which induces or acts on the outer coil A or A ¹ . is induced by it. As illustrated, one end of the coil B is respectively. Connect B ^s to the earth plate C and the other central end with an insulated conductor, as indicated in the above-mentioned procedure. The coils BB ¹ are placed in insulating containers D which contain the coolant and are surrounded by the coils AA ¹ .

After what has been said, the mode of operation of the device is readily understandable. As the simplest case, it is initially assumed that pulses or oscillations of arbitrary frequency are generated in coil A of the transmitter, regardless of the free oscillations of coil A itself. Corresponding oscillations are then induced in circuit B. If the latter is so arranged and adjusted that it vibrates to the same extent, the induced vibrations are greatly intensified. This gain is greater, the lower the damping, and since the latter is also reduced with the reduction of the resistance, the strength of the

Oscillations in the resonant circuit B are increased in the same proportion as its resistance is decreased.

These oscillations of the coil B now spread into the room and reach the tuned receiving conductor B ¹ through the earth or other conductive means. In the same, they excite corresponding vibrations which, for reasons similar to those given above, are amplified, so that they generate correspondingly stronger currents or vibrations in the circuit A ¹ which contains the receiving device.

If, such as B. in the transmission of messages, the circuit A is excited in arbitrary periods of time, so the effect on the receiver is increased in the manner indicated above, not only because the amplitude of the vibrations in the coils B and Z? ^{1 is} amplified, but also because the vibrations fade out for a longer period of time.

In this way, the cooling of the conductor B produces a twofold effect. Since the amplitude of the free oscillations in coil B ^{1 is} proportional to the amplitude and number of oscillations in coil B , and since the cooling of coil B ^{1 has} a similar amplifying effect, the current in circuit A ^{1 is} greatly increased. The advantages offered by the present invention are further increased if the circuit A of the transmitter, instead of receiving pulses of an arbitrary frequency, can oscillate in its natural period, but especially if it is excited by the free-oscillating high-frequency discharges of a capacitor.

The cooling of conductor A , which can be brought about by any means, thus results in an extraordinary increase in the effect generated in the receiver. If the circuit is cooled and its resistance is reduced accordingly, the vibrations will be stronger and longer lasting. The oscillations in the coils B and S ¹ are subject to the same laws, in that a reduction in the resistances in the same results in a significantly increased effect on the circuit A ^l . Obviously, if desired, the latter can also be tuned and kept at a low temperature in order to achieve the above stated purpose. It is clear that the greater the number of freely oscillating circuits selected which alternately receive energy and transmit it to one another, the greater will be the proportions of the advantage achieved by the present invention.

Claims (1)

Patent claim:
Method for generating electrical vibrations, characterized in that the electrical vibration systems are kept at a low temperature by artificial means (liquid gases, cold mixtures or the like) for the purpose of reducing the vibration damping and thus the absorption capacity of the system by lowering the electrical line resistance to enlarge the vibrations. For this purpose ι sheet of drawings.