DE1164809B - Electrodynamic pickup for musical instruments with sound bars, bells, etc. like - Google Patents

Description

Electrodynamic pickup for musical instruments with sound bars, Bells and the like The invention relates to an electrodynamic pickup for Musical instruments with chime bars, bells and the like made of electrically conductive non ferromagnetic material, in which a magnet is so close to the bar etc. is arranged so that its lines of force indicate the direction of the vibrations of the bar cut essentially vertically and currents are induced in the bar, which correspond to the vibrations of the bar.

There are known pickups in which a ferromagnetic body oscillates in the area of a magnetic field. The density of the lines of force is determined by the vibrations of the magnetic field varies in the same rhythm. This change in force line density of the primary magnetic field generates induction voltages in a coil, which then removed from the coil ends. Firstly, this type of scanning has the disadvantage that it is limited to ferromagnetic sound bodies because vibrations of a non-ferromagnetic body in a magnetic field is the force line density this primary magnetic field practically does not change. For another, this type of Sensing the disadvantage that the primary magnetic field on the vibrating tongue Exerts attraction and thus dampens the vibrations of this tongue.

In contrast, the subject of the invention is not on scanning limited ferromagnetic, but electrically conductive body. The area of application this body is much larger because most of the chime bars and bells are made out of it Non-ferrous metals are produced.

It would make sense for musical instruments with sound bars made of electric conductive material, the vibrations of the bar from the lines of force of a magnetic field cut and the resulting sound tension from the mounting points of the To tap the sound bar. However, these solutions present technical difficulties connected: The points of attack must be isolated from each other and are often located spatially apart. The contact feed at the tapping points, especially in the case of the sound bar instruments, easily leads to distortion phenomena and other mechanical ones Effects on the vibrations of the rod. There is also a transformer for Adaptation of the very low impedance pickup to the input circuit of a subsequent one Indispensable amplifier. Is it also about one-sided clamped bars or around bells, as can be easily seen, there is no tapping of the tone tension possible. The electrodynamic pickup according to the invention for sound bar instruments avoids these disadvantages. According to the invention, in the area of the magnetic flux the eddy currents induced in the sound bar placed a coil, whose of this Flux of force induced voltage is picked up as sound voltage at the coil ends. As is easy to see, there are problems with tapping and mechanical repercussions on the vibrations of the bar. The coil can also have a high resistance so that there is no need for a matching transformer between the coil and the amplifier. The invention also has the advantage that the vibrations in these non-ferrous metals of the sound body are practically not attenuated because of the primary magnetic field this body does not attract.

The basic physical difference between the known Scanning and the scanning according to the invention is that in the inventive Sensing the force line seal of the primary magnetic field is not in The rhythm of the vibrations changes but remains practically constant. The lines of force induce eddy currents in this body when it oscillates, which in turn creates a magnetic field (secondary magnetic field). In the area of this secondary magnetic field is a fixed coil is arranged in which this secondary magnetic field oscillates induces a voltage which is then removed from the coil ends. This coil therefore does not speak of changes in the field line density in the primary magnetic field because in the scanning according to the invention this primary magnetic field is not changes.

As with the known electrodynamic pickups, the one is in the The induction current created by the sound bar is all the stronger and thus the efficiency is reduced the greater the more the lines of force of the magnetic field perpendicular to the direction of the Schwingongen get lost. The magnet is to be arranged accordingly. Furthermore, the greater the area of the bar, the stronger the induction effect exposed to the magnetic field. As research has shown, brings a short-circuit connection at the ends of the bar, for example, an external closure of the circuit, no amplification of the induction effect caused by the invention is exploited. It is therefore exclusively due to the formation of eddy currents conditional in the bar. As can be seen, their strength depends largely on the thickness of the material of the sound bar or the bell wall. These eddy currents in turn generate an alternating magnetic field, which is the constant magnetic field partly superimposed, but partly also outside of it. Anyway, in a coil that is brought into its area, a secondary one becomes Induction current generated. There is a kind of transformer coupling between the active area of the bar and the coil. The closer this coupling has now been made becomes, be it through appropriate position of the coil to the sound bar, be it through Inserting an iron core into the coil, the greater the efficiency of the invention Arrangement. Research has also shown that the beneficial effect is at high frequencies slightly higher than with lower ones, so that a preference for the heights occurs. However this has a positive effect on the sound reproduction, since it is more linear in frequency Decrease in tone the knocking tone that occurs when the bar is struck is sometimes too strong would appear, as experiments have shown. With thin oscillation structures, such as String, tongue, membrane. proved the useful effect of the arrangement according to the invention too weak to appear technically usable. This was with the string and Membrane is also the case if an external, highly conductive electrical connection so by a short circuit, the circuit was closed, so that the effect was not caused solely by eddy currents. For chime bars made of light metal from 3 to 5 mm thick could, however, be used in higher pitches, e.g. B. at a fundamental frequency of about 1000 Hz, a useful effect can be achieved with an arrangement according to the invention, that of an electromagnetically operating arrangement - induction through change the flow of force in a magnetic circuit - not inferior.

As can be readily seen, the invention is suitable for use of sound bars made of non-ferrous metals; is known to occur in ferromagnetic material a collection of the lines of force of a magnetic field, so that only a few lines of force be cut by the vibrations of the material and the resulting eddy currents are correspondingly weak; in addition, the effect used in the invention is used here secondary induction obscured by the electromagnetic effect of induction by changing the magnetic flux. But since chime bars and bells are out For aural and technical reasons, it is mainly made of non-ferrous metals are, the technical advantage brought about by the invention is on of the hand.

The invention is based on some embodiments in the drawings explained. It means F i g. 1 the sound bar in cross section, F i g. 2 chime bars with pick-up coil on the field magnet, F i g. 3 bar with pot magnet and coil and F i g. 4 perspective view of such a magnet.

The point of the cross section of the chime bar 1 is intended to be located next to one of the two ends of the chime bar at an oscillation belly, ie in the middle, or expediently to leave space for striking with a mallet or the like. The U-shaped magnet 2 is arranged below the sound bar 1. The lines of force are indicated in the drawing by full lines; they intersect the direction of oscillation of the sound bar 1 essentially perpendicularly. The eddy currents that arise in the sound bar generate an alternating magnetic field, the lines of force of which are indicated by dashed lines. A coil 3 is arranged above the sound bar, opposite the magnet 2; it is provided with a U-shaped iron core 4. A considerable part of the alternating magnetic field generated by the eddy currents acts via the iron core 4 on the induction coil 3 and generates the sound voltage in it. In the case of the in FIG. 2, the induction coil 3 is attached to the legs of the magnet 2 with otherwise the same arrangement. The mode of operation of the arrangement is readily apparent from that shown in FIG. 2 indicated force lines. It should be noted that the efficiency is higher here than with the arrangement according to FIG. I, insofar as the magnetic lines of force of the eddy currents generated in the sound bar 1 largely follow the course of the lines of force of the magnet 2 and accordingly the coupling of the induction coil 3 to the sound bar 1 is closer.

Another embodiment is shown in FIG. 3. Here it is useful again below the sound bar attached magnet 2 block-shaped and with a Guide piece 21 made of soft iron is provided with a U-shaped cross section. Through the guide piece 21 the lines of force are directed so that they the vibrations of the bar 1 cut mainly vertically. It is useful to have 2 flat pieces for the magnets to choose from oxide material, which in addition to their relatively low price, a large spread have their lines of force and thereby a course of the lines of force according to F i G. 3 favor. That the lines of force run in two opposite directions, as indicated in the drawing by the arrows, plays a role in the efficiency of the Arrangement does not matter; since the directions of the lines of force of the eddy currents also change behave accordingly, there is no subtraction, but an addition of the effects conditions.

With the help of the invention z. B. after a sound bar instrument Kind of a vibraphone, with light metal rods, build on resonators and a mechanical vibrator device dispensed with. The sound bars are here with a The arrangement according to the invention is scanned and the sound is transmitted in a manner known per se an amplifier speaker channel with an electronic vibration device is provided. reproduced. The arrangement according to the invention is expedient designed so that in a known manner several sound bars by one elongated pickups are scanned. In this case the winding exists expediently from a few, hand-made turns thick wire, since it is wound up mechanically because of the large lengthwise extension the coil makes trouble. This very low-resistance winding is then through a high-ratio transformer to the input of the following amplifier channel customized.

F i g. 4 schematically shows an embodiment of such a sound bar instrument in the cutout. Below the bars 1 made of light metal is in the middle of the Pickups according to the invention with lined-up block-shaped magnets 2 and attached to a guide piece 21 made of magnetically soft iron. The guide piece 21st is elongated, has a U-shaped cross-section and also serves as a support for the magnets 2. Around the magnets 2 is the coil 3, consisting of a few turns thick wire, wound. For the purpose of compensating for external magnetic interference fields it is also advisable to connect two coils with opposite winding directions. As experience shows, it is sufficient with the usual two-row structure of sound bar instruments to equip the front and the back row with one reel each with the opposite Twist sense.

Investigations also showed the following: With correspondingly narrow and flat design of the pickup, as made possible by the use of oxide magnets the pickup can also be placed between the sound plates and the openings Arrange approximately retained resonator tubes without a noticeable loss of resonance effect would come. Such a combination of acoustic and electrical sound reproduction creates a particularly attractive sound effect.

Claims (6)

Claims: 1. Electrodynamic pickups for musical instruments with chime bars, bells and the like made of electrically conductive, non-ferromagnetic material Material in which a magnet is arranged in such a way near the sound bar, etc. is that its lines of force essentially determine the direction of the vibrations of the bar cut perpendicularly and currents are induced in the sound bar, which are the vibrations of the tone bar, characterized in that in the area of the magnetic The force flow of the eddy currents induced in the sound bar is arranged in a coil (3) is whose voltage induced by this power flow as sound voltage from the coil ends is removed. 2. Pickup according to claim 1, characterized in that the Magnet (2) has a U-shaped cross-section. 3. Pickup according to claim 1, characterized in that that the magnet is block-shaped and z. B. is made of oxide material. 4. Pickup according to claim 3, characterized in that the magnet with a guide piece (21) is made of soft iron, which has a U-shaped cross-section. 5. Pickups according to one of the preceding claims, characterized in that the coil (3) attached to the magnet (2). 6. Pickups when used in an electronic musical instrument made of light metal and one or more pickups, characterized in that the pickups are of elongated shape, each assigned to a group of sound bars, preferably in the middle, and have coils with very few turns, wherein A transformer is connected between the pickup and the amplifier input for electrical adjustment. Documents considered: German Patent No. 970 536; French patent specification No. 1116 936.