DE737118C - Magnet system for separately excited electrodynamic loudspeakers - Google Patents

Description

Magnet system for separately excited electrodynamic loudspeakers For magnet systems For electrodynamic loudspeakers, high field strengths are important in many cases to achieve in the air gap. The aim is to save as much material as possible to be able to use the coil or coils used for field excitation not excessively large to measure. Especially with large loudspeakers, the field excitation coil becomes a large one Power supplied, which may cause the winding to heat up significantly entry. When using enamelled copper wire for the field excitation windings comes usually with relatively small sized coils. If on the other hand to save the expensive copper instead of enamel-insulated copper wires oxidized aluminum wires' used, increases with the same dimensions of the coils the heating of the winding is extraordinary. In itself it is with such aluminum-wound ones Coils are easily allowed to reach temperatures of 100 to 20o0 without that the coil itself suffers. However, there is the disadvantage here, that the parts adjacent to the coil are also undesirably heated. So may z. B. the voice coil and its surroundings only marginally above the barely temperature are heated, as otherwise they can only absorb low speech performance. Farther Strong temperature fluctuations also affect the entire moving system disadvantageous, so that with a loudspeaker with strongly heating field coil undesirable changes in the vibrating parts can occur.

The invention overcomes these disadvantages in that the field excitation coil (or coils) on the one facing the voice coil Page over one Heat insulator and ar the opposite side using a good heat conductor the outer parts of the magnet system is in connection. The heat insulator can Nvischen field coil on the one hand and pole core and pole plate on the other hand attached be. Accordingly, it is useful between the field coil and the magnet yoke on the Outside of the coil and the side of the coil facing away from the pole plate a good one Provide heat conductors. This ensures good heat dissipation after that of the voice coil achieved opposite side, while on the side facing the voice coil relatively low temperatures prevail, so that the speech power supplied to the voice coil can be made particularly large.

The heat insulator can consist of one or more superimposed Layers exist. Asbestos or asbestos-like material has proven to be a particularly suitable material Masses exposed. In contrast, it is advantageous for the conduction of heat Serving materials in a known manner quartz sand o. The like. To be provided. To the It is further influencing the heat insulation or heat conduction and dissipation expedient, the thermally insulating layer as thick as possible and the thermally conductive layer to make it as thin as possible. It is also useful to have the magnet yoke with cooling fins to provide better heat dissipation to the rear of the magnet system to obtain. But it can also not only provide the magnet yoke with cooling fins but also the side of the magnet system facing the voice coil. In this Trap could therefore on the pole core and on the pole plate cooling fins or other Cooling devices be attached. The heat can be removed in a simple manner done by air cooling. The magnet system can be self-ventilating or be externally ventilated. If for any reason, e.g. B. Installation in tightly fitting Housing, air cooling causes difficulties, can also use the magnet system Devices can be provided which effect cooling with the aid of a cooling liquid.

An exemplary embodiment of the invention is illustrated in the drawing. The loudspeaker diaphragm i is attached to the bobbin 2, which z. B. consist of mica can attached. On the bobbin: 2, the voice coil 3 is wound. Around the coil, especially if it is a large loudspeaker, in terms of performance The voice coil made of oxidized aluminum wire can handle particularly high loads exist so that high temperatures can be used. When using a Mica bobbin is easy to work with at high temperatures permissible.

The voice coil 3 with the bobbin 2 vibrates in an annular manner Air gap created by the cylindrical pole core and the circular pole plate 5 is formed. The magnetic yoke 6 can be designed as a body of revolution and is appropriately provided with cooling fins 7. The .Magnetjoch 6 can contain openings, but it is also possible to do the same thing, apart from that for the implementation of the supply lines necessary holes to form completely closed. The magnetic field coil S is against the pole plate 5 and the pole core q. by a heat insulator 9, the z. B. from asbestos can exist, isolated. With the yoke 6, however, the coil S is as good a heat conductor as possible, but electrically insulated connected to the layer io, the z. B. consists of quartz sand. It is important that there is an intimate thermal contact between the coil 8 and the Magnet yoke 6 is formed. The cooling fins 7 are advantageous in the direction of Lines of force arranged so that the lines of force flow through the cooling fins and the same are magnetically exploited in this way. It can also be beneficial to the pole core and also to provide the pole plate with cooling fins, but these are shown in the drawing are not shown in detail.

Claims (1)

PATENT CLAIMS: i. Magnet system for separately excited electrodynamic Loudspeaker, characterized in that the field excitation coil is connected to that of the voice coil facing side over a heat insulator and on the opposite side over a good heat conductor is in contact with the outer parts of the magnet system. Magnet system according to claim i, characterized in that the heat insulator is between Field excitation coil on the one hand and core and pole plate on the other hand is arranged. 3. Magnet system according to claim i, characterized in that the heat conductor between Field coil and magnet yoke on the outside of the coil and that facing away from the pole plate Side of the coil is arranged. 4. Magnet system according to claim 2, characterized in that that the heat insulator consists of one or more layers lying on top of one another. 5. Magnetsystetn according to claim or q., Characterized in that as Heat insulator Asbestos or asbestos-like masses are used. 6. Magnet system according to claim 3, characterized by the use of Ouarzsand as a heat conductor. 7. Magnet system according to claim i to 6, characterized in that the heat insulator as a thick and the heat conductor is designed as a thin layer. B. Magnet system according to claim i to 7, characterized in that the magnet yoke is provided with cooling fins. 9. Magnet system according to claim i to 8, characterized in that the pole core and / or the pole plate are provided with cooling fins. ok Magnet system according to claim 8 and 9, characterized in that the cooling fins in the direction of the magnetic lines of force get lost.