DE856614C - Electrodynamic earphone capsule - Google Patents

Description

Electrodynamic earphone capsule The invention relates to a electrodynamic earphone capsule. Capsules of this type generally consist of one Magnet system with an annular gap, a moving coil freely movable in the annular gap, which is attached to a membrane, a membrane support and an all parts enclosing Casing. For the absolutely necessary exact centering of the pole pieces of the magnet With regard to the annular gap for the moving coil, there have often been difficulties so far especially in terms of manufacturing technology. Either occurred in the event of impact a shift between the core pole and the pole disc, through which the annular gap became unequal, so that the plunger coil on its circumference different distances from had the pole pieces or that the pole pieces touched the moving coil or even got stuck, or there was from the beginning the risk that as a result of insufficient Centering the membrane, the plunger coil attached to it cannot move freely in the gap was.

According to the invention, the previously existing disadvantages are now thereby eliminates that the membrane support, which has a circular recess for receiving the also circular membrane is provided without play, one to the one on the Diaphragm centrally mounted moving coil concentrically lying hollow cylindrical Has extension which is used to hold the pole disc, which is annular in cross section and the base plate of the T-shaped core pole without play and the ring magnet with or without a game.

It is known per se in electrodynamic earphone capsules, the membrane carrier with a circular recess to accommodate the membrane, which is also circular without play as well as with a plunger coil attached centrally to the membrane to provide concentrically lying hollow cylindrical extension. But that's how it is not yet possible without the help of special tools or special aids an inevitable centering of all parts that are at a certain distance from each other must be arranged if the system can work properly should be made. Only through the training according to the invention can in simpler Way the assembly of the earpiece can be made without the previously existing Disadvantages occur. Furthermore, the elimination of an additional Centering cheaper, and the accuracy of the centering is independent of that more or less careful work of the manufacturer. Operational disruptions Subsequent changes to the spacing ratios are made impossible.

Further details of the invention can be found in the description of the in the drawing partly in longitudinal section, partly shown in the view Referring to the embodiment.

The membrane carrier i, on the circumference of which the membrane 4 is clamped in a circular recess 17 by means of two washers 2 and a cover 3 without play, is here plate-shaped (conical) and has openings 18 for influencing the frequency response, which are on its inside air-permeable to avoid contamination, e.g. B. with gauze, are covered. At its middle part it has a hollow cylindrical extension 5 which encloses the ring magnet 6, the pole disk 7 and the flat part 8 of the core pole 9. While there may be some play between the magnet 6 and the hollow cylinder 5, the pole disk 7 and the base plate 8 of the core pole are inserted into the hollow cylinder 5 without play in order to ensure the most accurate and absolutely reliable centering with respect to the annular gap for the the membrane 4 attached plunger coil ii. The opening 12 provided in the diaphragm carrier for the passage of the central part of the diaphragm has a smaller diameter than the pole disk 7, so that an annular support surface 13 for the pole disk 7 is created. The base plate 8 of the core pole has a cylindrical outer edge 14 as a guide surface in the hollow cylinder 5 and a conically beveled edge part 15 around or onto which the free edge part 16 of the cylindrical extension 5 is crimped.

The current is fed to the plunger coil in the usual way at i9.

Due to the inventive design of the earpiece capsule and its individual parts a number of very important advantages are achieved: The pole disc 7 and the core pole 8, 9 are particularly economical to machine while the membrane carrier i with its cylindrical extension 5 as an injection molded part of high Accuracy can be established. Another benefit of enclosing the magnet system by the cylindrical extension 5 is that it allows the use of magnetic rings that could not be used with the previously open construction. Both preferred, made of an aluminum-nickel alloy, extremely brittle magnet rings namely, cracks often occur in the axial direction during machining, although they are magnetic are meaningless, but under certain circumstances the entry of dirt or moisture into the earpiece.

The mutual connection of the overall arrangement through the flanging of the lower edge of the cylindrical process with simultaneous independent Centering the parts forming the annular gap for the moving coil has the advantage of that no holding means which make the assembly more expensive, e.g. B. screws are required will.

The membrane carrier i can also be made of plastics. These substances are hard at normal temperature, and in this state it can be used for the lower edge of the cylindrical extension provided flanging is not made Will. As far as these substances can be made malleable by heating, are they are also useful for purposes of the present invention. It is enough in In this case, local heating of the edge to be flanged in order to achieve the same fastening effect. In the case of plastics that no longer become plastic when exposed to heat, Gluing or the like. One of the gap between the base plate 8 of the core pole 9 and the ring filling the cylindrical extension has the same locking effect as can be achieved by flanging.

Claims (6)

PATENT CLAIMS: i. Electrodynamic earphone capsule, characterized in that that the membrane carrier (i), which has a circular recess (i7) for receiving the also circular membrane (4) is provided without play, one to the on the: membrane (4) centrally attached plunger coil (ii) lying concentrically has a hollow cylindrical extension (5), which is for receiving the annular in cross-section Pole disc (7) and the base plate (8) of the T-shaped core pole (8, 9) serves without play and the ring magnet (6) with or without play. 2. Electrodynamic Receiver capsule according to claim i, characterized in that the base plate (8) of the Core pole (8, 9) serves as a closure plate for the capsule, the outer edge (i5) of the The bottom plate (8) and the lower edge (i6) of the cylindrical extension (5) is crimped around or on the edge (i5) of the base plate (8). 3. Electrodynamic Receiver capsule according to claim i, characterized in that the membrane carrier (i) is a has central opening (i2), the diameter of which is smaller than the outer diameter the pole disk (7), and that the inner edge of the membrane carrier one Forms support surface (13, bearing surface) for the pole disc (7). 4. Electrodynamic Receiver capsule according to claim i, characterized in that the conical part (i) of the membrane carrier covered with continuous, air-permeable (e.g. with gauze) Openings (18) are provided which form the cavity between the membrane (4) and the membrane support (i) connect to the outside air. 5. Electrodynamic earphone capsule according to claim i to 4, characterized in that the membrane carrier (i) including his cylindrical extension (5) is made of a plastic that is at normal temperature is hard and the lower edge of which is made malleable by local heating and on or is crimped around the base plate (8) of the core pole (9). 6. Electrodynamic Receiver capsule according to Claims 1 to 4, characterized in that the membrane carrier (I) including its cylindrical extension (5) made of a plastic which cannot be made plastic by the action of heat, and that the annular gap between the cylindrical extension (5) and the base plate (8) of the core pole (9) by gluing or the like. A ring is filled.