DE1828442U - ELECTRODYNAMIC SOUND CONVERTER. - Google Patents

Description

ELECTRODYNAMIC SOUND CONVERTER The present innovation relates to an electrodynamic sound transducer, that is to say a microphone or a loudspeaker, in particular the arrangement and attachment of the lead wires for the plunger coil of such a transducer. Electrodynamic speakers and microphones contain be known to be an exchange or speaking coil with several turns of one fine wire attached to a cylindrical bobbin. The plunger coil is connected to external connection terminals via at least two supply wires in order to be able to supply or remove electrical signals. Such a moving coil under certain circumstances, especially when it is operated in a loudspeaker and corresponding signals are supplied, very powerful vibrations.

The lead wires connected to the plunger coil are then also exposed to considerable vibrations and forces. Under certain circumstances, the insertion wires can touch the loudspeaker membrane or the holder for the speaking coil, which can consist of a centering spider or a centering membrane, for example, and thereby cause an annoying noise. The lead wires are generally thicker than the wire used for the plunger coil because the relatively thin wire of the plunger coil winding is more prone to noise than thicker wires and is more likely to break as a result of fatigue in the metal forming the feeder wires. With very small or very flat loudspeakers (or microphones) it is often not possible to use sufficiently strong and thick lead wires, since the distance between the membrane and other components in the area of the moving coil is too small to be able to accommodate thicker wires. It is also desirable to be able to use part of the wire of the plunger coil as lead wires without the risk of noise or fatigue fractures. The innovation is therefore intended to provide an improved bracket and Fastening arrangement for the lead wires to the moving coil of Microphones and miniature speakers are specified., Where the sensitive wire, which forms the moving coil winding, as a feed wire for connection to an external circuit can be led out so that the risk of fatigue fractures of the lead wires is largely reduced and annoying noises can not occur even when a miniature loudspeaker is operated with high power.

The innovation is applicable to electrodynamic sound transducers with a vibrating membrane, which is connected to a speaking coil and a mounting arrangement, like a centering membrane or centering spider. The lead wires to the moving coil run over the bracket. According to the innovation is on the bracket (Centering membrane, centering spider) a semi-solid, elastic material, such as a Gel, applied. A material that does not dry out and with a temperature slightly higher than room temperature retains shape and elasticity. Silicone greases are particularly suitable. The lead wires are in the material embedded, thereby causing excessive vibration of the wires along their whole length Length to be avoided. This causes breaks in the wires due to fatigue due to the vibrations and the wires hitting the membrane, leading to Noise leads, avoided.

The innovation will now be explained in more detail with reference to the drawing.

Fig. 1 shows partially in section the side view of one according to the Innovation of built-up loudspeaker; Fig. 2 shows the loudspeaker of Fig. 1 in a view from the front, the membrane is partially broken away and FIG. 3 shows a partial section along the plane 3-3 in FIG. 1.

The innovation is to be described using a loudspeaker, as loudspeakers are the preferred area of application. Of course, suitable The innovation is also available for electrodynamic microphones that contain moving coils.

1 shows a loudspeaker with a magnet arrangement 10 which a basket 12 is attached. A speaker diaphragm 14 is in a known manner connected to the basket 12 with its outer edge. The membrane carries a bobbin 16 on which a number of turns of fine wire are wound, the one Form moving coil 20. A corrugated, annular centering membrane 18 is with her The inner edge is attached to the bobbin 16 and the outer edge to the basket 12. A terminal board 22 ", which carries two connection terminals 24, is attached to the basket 12. Lead wires 26 run from the plunger coil via the centering membrane 18 to the terminals 24. The Wires 26 should, if possible, be formed by the wire from which the windings are made 20 of the plunger coil exist. If so desired can the wires 26 however also be separate wires, which are then suitably connected to the ends the moving coil winding 20 are connected.

On the centering membrane 18 and the basket 12 are two bodies 28 and 30 (FIGS. 2 and 3) which surround the lead wires 26. The wires 26 are therefore embedded in the material forming the bodies 28 and 30. The body 38 are elongated and resemble veins. They consist of a semi-solid material, which adheres to the centering membrane 18 and to the basket 12 and the wires 26 to the centering membrane 18 and the basket 12 holds. The material of the bodies 28 and 30 should be semi-rigid and elastic be, have good damping properties and do not dry out. The material should be dimensionally stable even at slightly elevated temperatures. The dimensional stability at elevated temperature is desirable as the speaker in an electronic Device can be operated that generates so much heat that the body 28 and 30 be warmed above room temperature. The material of the body 28 and 30 should also the elasticity and consistency in a normal, possibly also dry Maintain atmosphere for a long time. In any case, the lead wires should 26 are dampened over their entire length by the body 28 and 30, so that they cannot cause excessive vibrations. This will make the wires 26 too prevented from attending the Speaker membrane 14 and the bracket 18 and make annoying noises. As the vibrations of the feeder wires 26 are largely damped, there are practically no more fatigue fractures enter.

Suitable materials for the bodies 28 and 30 are silicone greases or gels. Fats of this type are described in a book by Eugene G. Rochow "An Introduction of the Chemistry of the Silicones" (John Wiley and Sons, New York, 2nd edition 1951). A particularly good suitable silicone grease is available from Dow-Corning, Ine., Midland, Michigan, V. St. A. marketed under the designation DC-8. This material is in a temperature range of -40 C to about 150 C dimensionally stable and does not dry out. In the manufacture of an electrodynamic sound transducer, z. B. a loudspeaker as shown in Figures 1, 2 and 3, the lead wires 26 are passed over the centering membrane 18 and attached to the terminals 24 of the terminal board 22. Strands of a suitable material are then pressed, such as the one above mentioned silicone grease, individually, around the wires 26, so that the material flows around the wires and surrounds them.

Claims (2)

PROTECTION CLAIMS 1. Electrodynamic sound transducer with a vibratory Membrane with a voice coil wound on a bobbin and a Mounting arrangement, such as a centering membrane connected and with lead wires, which connect the plunger coil to external connection terminals, characterized in that that the lead wires (26) embedded in bodies (28, 30) made of a semi-solid material which is applied to the region of the holder (18) along which the lead wires get lost. 2. Sound transducer according to claim l, characterized in that the body (28, 30) consist of silicone grease.