DE738931C - Microphone capsule largely protected against moisture - Google Patents

Description

sweep moisture largely protected microphone capsule The invention relates to a microphone capsule largely protected against moisture with free more vibrating, designed as a round disc and with one in the middle into one Grain chamber immersing electrode provided with a membrane that replaces the immersion electrode by means of a conductive holding means with a against the inside of the microphone Moisture-protecting metal foil is connected. With a known microphone capsule of this type, the protective membrane consists of an extremely thin metal foil to protect a to achieve the greatest possible freedom of movement of the membrane. The thin metal foil is, however, easily exposed to destruction that z. B. already by penetrating finest grains of sand can be caused. Also the connection between Metal foil and carbon membrane are difficult because of the high sensitivity of the foil. It can therefore only be the mechanical and electrical connection -by gluing by means of a conductive adhesive. But gluing is. just an inadequate one Means for establishing a firm, permanent connection.

The invention overcomes and achieves the disadvantages mentioned in that the mechanical and electrical connection of the metal foil that is used for Provide increased mobility with ring-shaped, joint-like grooves is done in that a suppository provided with a metallic coating the carbon membrane into a central one which simultaneously serves to fix the carbon membrane Hole in the metal foil engages and metal foil and carbon membrane at this point, z. B. be galvanically connected by soldering. The formation of the metal foil with annular Grooves allows a stronger one to be used Metal foil without reducing the free mobility of the metal foil The stronger metallic foil is protected against destruction by penetrating sand grains, It enables a perfect mechanical and electrical connection at the same time, since the metal foil with the carbon membrane on the uvula, e.g. B. by soldering or by means of spraying, in which liquid metal is atomized under pressure to the connection point is brought, can be produced without damaging the metal foil will.

The invention is described in more detail with reference to the figures.

Fig. I shows the microphone capsule in section. It is formed from a housing G, which consists of metal and in which the grain chamber 1i is attached. On top of the housing is the cover D, which has a number of speaker openings contains. The vibrations entering through the openings move the carbon membrane j11. This has the approach A in the middle, which acts as a cone in the grain chamber protrudes. On the upper side of the coal membrane there is a suppository C which serves to establish a connection with the metal foil i11 and for centering. In Fig. 3 shows the carbon membrane separately. The carbon membrane rests on one Base Z, which consists of fiber material, in particular felt or flannel. at The pad serves as a spring for the movements of the membrane, to keep the starting position restore. The longer the fibers of the material, the softer it becomes the damping. The carbon membrane is mechanical with a metal foil R on its uvula and electrically connected. This metal foil has, as can also be seen in FIGS. 2 and 2a leave, .circular grooves, which serve the free movement of the metal foil to increase. In its center, the metal foil has a hole T into which the uvula of the carbon membrane engages. The connection between carbon membrane and Metal foil is produced, for example, by soldering or by a spraying process, in the case of the liquid: metal atomized under pressure and brought to the connection point will. For this purpose, the uvula of the carbon membrane is covered with a metallic one Overlay. The metal foil rests on the bent edge U of the housing. It seals the top of the capsule from the outside air and forms such a protection against the ingress of water, moisture and dust, to which For this purpose, it is advantageously glued to the edge of the housing with insulating varnish. A ring V presses the film firmly against the housing and serves as a power supply. The part the film that comes into contact with the outside air has a special protective layer overdrawn.

The grain chamber consists of a coal block, which is a dome-shaped has formed recess for receiving the grains. The block K is made by one Foot F held, which is firmly attached to a slope of the chamber by flanging is. This metal foot piece has a thread in the middle, with which it means a screw) e 5 'can be attached to the housing. There is an insulating washer for insulation J provided as well as a bottom piece ö, which is also through the screw, which at the same time represents the power supply is held. The bottom piece is made of an insulating material, r_weckinäßig synthetic resin, and has one or more grooves around the To increase the creepage distance between the screw and the housing. All joints are with Sealed insulating varnish.

The space around the coal chamber must have a connection with the outside air to prevent the film from puffing up in the event of temperature fluctuations. To this The purpose is one or more fine openings L on the underside of the housing G, those with normal use of the microphone are water (rain) or moisture are not exposed, provided through which a compensation of pressure differences is possible.

The assembly of the microphone capsule is extremely simple. the Carbon chamber K is attached to the housing G with its insulation; then will the felt washer Z inserted. After filling the charcoal chamber with the grains, the Foil P with the membrane 1I attached to it is placed on the edge U of the housing G. and glued to the edge U using insulating varnish.

After placing the ring h ', the cover D is pulled tight and Appropriately secured by punching or the like. Then that's against moisture and dust-proof microphone ready for use.

Claims (1)

PATENT CLAIMS: e.g. Microphone capsule largely protected against moisture with a freely swinging disc, designed as a round disc and with one in the middle Electrode immersed in a grain chamber, which is attached to the site the immersion electrode by means of a conductive holding means with one inside of Microphone is connected to moisture-protecting metal foil; characterized, that the mechanical and electrical connection of the metal foil (P) necessary to increase their mobility with ring-shaped, joint-like grooves (R) is done with the carbon membrane (M) in that a with a metallic support provided suppository (C) the carbon membrane in a simultaneous fixation of the carbon membrane Serving central hole (T) engages the metal foil and metal foil (P) and Carbon membrane (M) at this point, e.g. B. be galvanically connected by soldering. . a. Microphone capsule according to claim i, characterized. that the metal foil (P) is made of copper. 3. microphone capsule according to claim i to 2, characterized in that that the carbon chamber (K) is designed like a dome and the conical immersion electrode (A) is rounded at the bottom. 4. microphone capsule according to claim i or i to 3, characterized in that the connection between metal foil (P) and carbon membrane (: 17) on the cones of the carbon membrane by means of an injection molding process where liquid metal is atomized under pressure and brought to the connection point will.