DE345793C - Sound apparatus - Google Patents

Description

Sound apparatus. With sound apparatus it happens. at strong, in particular steeply rising pressure surges very often that parts of the apparatus under be demolished or destroyed under the influence of the acceleration given to them. So is it z. B. with underwater sound receivers, which from one to the outside water bordering membrane and one on this membrane directly. or indirectly attached Detector (a microphone) : stand, very often the case that in the event of an explosion, the detector separates from the membrane or tears in itself will.

The reason for the appearance is that it is due to the resilience the mass of the detector through the outer sound membrane for a certain period of time accelerating effect of the explosion shock are exposed to at the moment, in which the membrane has reached its greatest deflection, suddenly decelerated to become. It is extremely difficult to do this for acoustic reasons due to the inertia of the detector masses heavily stressed parts like this to make them resistant to the very significant stresses at the moment withstand this deceleration.

According to the invention an improvement is achieved in that the parts of the sound apparatus connected to the outer record are not rigid, as usual (by screwing, soldering or the like) connected. but through a suspension pressed against the outer record -, vcrclen, this suspension between the shock-sensitive parts of the apparatus part cooperating with the membrane and its point of contact with the membrane engages. It is thereby achieved that the accelerated masses of the inner parts of the sound apparatus are at that moment the stopping of the outer membrane against the pressing spring force can so that the existing kinetic energy in them with the gradual deflection the pressing suspension slowly converted into potential and partly consumed -will. After this moment, the thrown off parts are due to the spring action their wearer returned to their old position on the membrane.

It has already been proposed, so-called pressure microphones to press against the membrane with a resilient abutment. At these institutions picks up the spring - r on. the side of the microphone facing away from the membrane this so that all shock and pressure-sensitive parts of the same, as they are are located between the membrane and the abutment, fully exposed to the effect of the pressure flow are.

The energy-consuming effect of the feathering can still be used according to the invention can be improved by adding any known damping devices to it Art are appropriate. So that these danish devices light up the acoustic Vibration process itself have a disruptive effect, they are advantageous in such a Location brought to the resilient pressing device that they only after it has been lifted off come into contact with the pressure device from the sound membrane.

In FIGS. 1 and 2, devices designed according to the invention are shown illustrated using the example of a microphone receiver. In the capsule r that goes through The record 2 is complete, the microphone 3 is located pressed against the record 2 by the spring 4. The spring s occurs with the Spring 4 when lifting the latter in contact and brakes them in their further Move. The device according to Fig. Differs from that according to Fig. i only because the cushioning between the .'microphone and membrane does not counteract the rest of the capsule part, but takes place in itself. This is done to prevent deflections the membrane does not affect the contact point between microphone and membrane to come about. Care must now be taken to ensure that the possibly existing coordination of the spring 4 together with the associated masses if possible second outside the to. receiving frequency or frequency groups. Advantageous becomes the oscillation system formed in this way with respect to the frequencies in question highly tuned.

The device of the invention is broadest in all Sound apparatus can be used, regardless of whether they are apparatus for transmitting or to receive sound waves. She's not into sound machines limited to certain media, but can be beneficial in liquids and gases alike Find application.

Claims (1)

PATENT CLAIMS: i. Sound apparatus, characterized in that the shock-sensitive structural part (detector, Excitation device o. The like.) By a resilient, between this part and your radiator structure attacking pressing device is in connection with your radiator structure. Sound apparatus according to claim i, characterized in that the resilient pressing device of Is exposed to the action of braking devices. 3. Sound apparatus according to claim i and 2. characterized by such a storage of the braking device that this with de: resilient pressing device only after: the lifting of the latter from your Radiating organ cooperates.