DE450123C - Device for converting current fluctuations (alternating currents) into sound waves - Google Patents

Description

Bibliotheek

Bur Ind. Eiciendnin

3 ODEC. 1927

ISSUED ON
SEPTEMBER 30, 1927

If you bring a current-carrying conductor into a magnetic field, it moves as is well known in this perpendicular to the lines of force. The direction of its movement depends from the direction of the current flowing in it.

Numerous methods are also known for making gases electrically conductive do, e.g. B. by ionization, by illuminating with cathode rays, by heating etc. Each flame creates a conductive zone. Mercury, water, and other vapors also conduct electricity.

These known facts are used in the present invention to provide an apparatus to convert current fluctuations into sound waves.

Fig. Ι shows schematically an embodiment. The rod α is made glowing by the battery b. A line is branched off in c , into which the coil d and the battery e are placed. At the end of this line is the plate /. Between / and a. there is a transition from direct current. This is superimposed by the coil g, which is inductively coupled to the coil d, of the speech current excited by the microphone h and the battery /. The medium between α and / thus represents a current-carrying conductor in the magnetic field (N and 5 are the poles of a horseshoe magnet). Depending on the voice currents superimposed on the direct current, the conductive medium is moved between N and S, thereby causing the surrounding air layers to vibrate as well.

In Fig. 2, a flame α creates a conductive zone. This closes the circuit b, c, d, e. The current fluctuations are generated in the microphone / with the battery g and inductively transmitted to the coil d by the coil h. Here, too, the current-carrying conductor is moved in the magnetic field, the flame zone between e and b between the poles N and S, causing the surrounding air layer to vibrate.

Instead of a flame, as shown in Fig. 3, there can be a metallic nozzle e , from which electrically conductive vapors, gases, smoke or dust flow. A high-voltage direct current with superimposed speech currents is placed between e and b. The magnetic field moving the vapors exists between the poles / V and S.

Fig. 4 shows a magnetic field between N and S, in which there is an electric arc, which is fed with high-voltage direct current with superimposed speech current. The arc and the surrounding air are moved in the rhythm of the current fluctuations in the magnetic field and thus cause sound waves.

In all cases the magnetic field can be constant; it can "but also through

Superposition of the speech streams in their
Rhythm can be influenced. The circuit
must then be chosen so that the effects of the speech current in the conductive gas layer and the speech current in the magnet winding add up.

The method offers the advantage of eliminating the hysteresis. The bulk of the in
Vibrations to be displaced, z. B. Air layer is less than that of a telephone membrane. In contrast to membranes and similar elements, the conductive gas ^! do not build up any natural vibrations. >

Claims (3)

Claims: j ι. Device for converting [current fluctuations (alternating currents) into | Sound waves, characterized in that j are in connection with the air
to fumes, gas or smoke that either are in themselves conductive or are made conductive and those to be transformed Currents are flowed through, are brought into a constant magnetic field. 2. Device for converting current fluctuations (alternating currents) into Sound waves, characterized in that air-related vapors etc. emitted by a constant Current flows through, are brought into a magnetic field influenced by the currents to be converted. 3. Device according to claim 1 and 2, characterized in that with the air related vapors, etc., flowed through by the streams to be converted will and. at the same time the magnetic field is traversed by the same currents. · Fig. 2.