DE1948879B2 - MEMBRANE FOR DYNAMIC ELECTRO-ACOUSTIC SOUND CONVERTER - Google Patents

Claims (3)

The invention relates to a membrane for made with w ^ Sen and then the opening electroacoustic transducers. openings are punched in the bottom of the chambers. Annular diaphragms are already known, due to the fact that the voice coil former with a central body connected to the diaphragm and the annular diaphragm in one piece Dome are provided and form a Schsvingspulenkör- 5, is achieved that a constant constant per exhibit. With diaphragms of this type it is a perfect centering of the oscillating coil body knows the air space below the dome with that in the gap through the edge recording of the ring air space is guaranteed by a coupling membrane underneath the ring membrane. Through the openings of the invention to put in connection, which will be the dimension in the openings arranged in the chambers serve to reduce the acoustic air gap impedance. io achieves that reducing the air gap impedance In such a known membrane, all sound transducers are always the same without the diaphragm and the dome are made from one piece. that the air gap induction is adversely affected, and in the transition area between the mem- bran and the dome are tunnel-like webs introducing the invention, and it means: let the transverse to the direction of vibration of the mem- 15 Fig. 1 partial section through a dynamic bran are directed and the air space below the sound transducer with the membrane according to the invention, Calotte and below the annular diaphragm together Fig. 2 partial section according to Fig. 1 through the mem- connect in order to short-circuit the air gap resistance with the membrane chambers and the connection eat. This known embodiment has the training openings. Fortlasauf under the membrane must disadvantage that the voice coil bobbin 20 pointwise Fig. 3 illustration of FIG. 2 are bonded, whereby the calotte solution according to the section AB in Fig. 4,
the centering of the voice coil in the gap. There is also a further opening for subsequent ties. part insofar as when using such a As the figures show, the sound transducer has Converter as a loudspeaker, the coil of the 25 an annular membrane 1, on the middle part Membrane can loosen. a spherical cap 7 is attached by gluing. At the In a worse known embodiment, the membrane 1 is the voice coil body 2 is arranged- notches in the pole plate and in the magnet, which is integral with the membrane 1. On the randomly, through which the air gap is enlarged and the voice coil bobbin 2 is attached to the coil 3, d ^; e so that the impedance is reduced. Here each 30 is centered in a gap 4. In that of the but the disadvantage that the dome 7 covered by these notches are part of the membrane 1 the air gap induction is disadvantageously weakened. Arranged chambers 5, which, as Fig. 4 shows, on Finally, another membrane is known, the covered part of the membrane 1 in which the annular membrane and the voice coil are evenly distributed. Each chamber 5 has a horizontal body made of one piece and the dome on 35 th bottom, in which an opening 6 is attached to another ring menibran by Klcbung. When is arranged, the axis of which are parallel to the direction of oscillation of this known embodiment in which the diaphragm 1 is located. Since the chambers 5 are open towards the cylindrical ring dome 7 forming the voice coil bobbin, the webs above the coil winding connect openings 6 with the space Vl below the dome, the axis of which is perpendicular to the direction of oscillation 4 ° with the space VZ below the membrane, so that the membrane lies. This known embodiment bridges the impedance of the air gap 4 or Z ₁ has a disadvantage insofar as it takes place during winding. The membrane 1 can be provided with a Dnmpfungsganp for the voice coil, the openings through the material 8, through which the space Vl are partially closed with adhesive. This has to be related to the outside space.
As a result, the electro-acoustic properties of the 45 tolerances, which change uncontrollably in the adhesive connection of the transducer and thus the dome 7 with the membrane 1, can be increased at tolerances. spiclsweisc the eccentric gluing of the spherical cap 7, The application is based on the task, one here has no effect on the electro-acoustic to create such a membrane that has the disadvantages properties. avoids all known membranes and a 50 The openings 6 in the chambers 5 can cinuand-free inevitable centering of the oscillation can have any cross-sectional shape, bobbin in its gap and one at velvet - for example, they can be round according to Fig. 4, borrowed membranes constant reduction of they can also be used as slit segments or on others Air gap impedance guaranteed. Way to be trained. According to the invention, this is achieved in that 55
in the part of the mem- branche after the dome to open chambers arranged- claims:
are net, which each have an opening lying with their axis in the direction of oscillation of the membrane - 1. Annular membrane for dynamic, have. 60 electro-acoustic transducers with a A further embodiment of the invention consists of a central dome and a swing therein, that the chambers have at equal intervals over bobbins and in which the air space the covered part of the membrane are distributed and below the dome with the air space below perpendicular to the direction of oscillation of the diaphragm, the diaphragm is left by reducing the gendc. the opening supporting the floor area bc- 6g acoustic air gap impedance serving head seats, orifices in communication, thereby It is also essential that the chambers are marked in front of the fact that in the Fixing the dome when pulling the ring membrane soldered the covered part of the membrane after the Dome to open chambers are arranged, each with one. their axis in the direction of oscillation Have membrane lying opening. 2. Membrane according to claim 1, characterized in that the chambers at equal intervals are distributed over the covered part of the membrane and one perpendicular to the direction of oscillation the membrane lying, aie breakthrough Have load-bearing floor area. 3. Membrane according to claim 1 and 2, characterized in that the chambers before attachment the dome is made when the toroidal membrane is pulled and then the openings are punched into the bottom of the chambers. 1 sheet of drawings