DE352642C - Microphone sound wave receiver for underwater signals - Google Patents

Description

microphone sound wave receiver for underwater signals. It is at Sound wave receivers for underwater signals have already become known, microphones to use and thereby to withdraw them from the influence of moisture that they housed in a closed housing and connected with ziner auxiliary membrane which is exposed to the seawater that propagates the sound waves.

In these known devices, the auxiliary membrane is one-sided exposed to the pressure of the water, so that it is constantly burdened on one side. It is already a pressure equalization device for underwater telephone receivers become known; with this, however, the pressure equalization takes place by compressed air instead of passing through the back of the telephone membrane through tubes or tube systems is forwarded.

In the present case, however, forms the one that transmits the sound waves Water itself is the means of relieving the auxiliary membrane.

According to the invention, the with the microphone in Connected auxiliary membrane in an airtight sealed, with liquid filled container housed on its outer wall exposed to sound waves, in such a way that the fluid membrane is in contact with the liquid on both sides. With this arrangement, the auxiliary diaphragm is completely relieved, and the external pressure fluctuations of the water are not immediately, but through the body of the container on the liquid in it and only then on both sides on the auxiliary membrane transfer.

In order to achieve an absolute isolation of the microphone against To bring about moisture is proposed according to the invention, the microphone to be arranged completely outside the container, which then only has to be balanced Auxiliary membrane and the connecting element in which the sound waves receive and transmit, the membrane contains liquid in contact with both sides.

The drawing illustrates the invention using two exemplary embodiments.

Fig. I shows a device in section, in which microphone and Auxiliary membrane housed in one and the same container filled with liquid are.

Fig. 2 shows a device built into the ship's wall in section, in which only the auxiliary membrane is in the liquid container, on the other hand the microphone is arranged outside of the same.

A suitable microphone capsule i (Fig. I) is in a special one Hermetically sealed, air and waterproof housing: z in a suitable manner arranged, e.g. B. hung. The microphone membrane stands by a rigid or elastic Link 4. with an auxiliary membrane 6 in connection, which by struts 7 is carried by the housing 2. Since: connecting link ¢ passes through a special seal 5 through the wall of the housing 2 in order to reach the microphone membrane respectively. This seal is expediently made of rubber, leather or even entirely thin sheet steel. This device just described is in itself known way in a spherical manner, wholly or partially with a liquid filled container, which is formed from two halves io, ii. There are ropes on the container or chains i2 attached to be able to leave it overboard. The introduction of the Cable cord to the microphone is done through sealed closures 13. With hermetically sealed closures 1q. can. the necessary liquid in the container are fed.

This training ensures that the microphone: z no longer is so subjected to the influence of moisture, as it is so far with such Apparatus was the case. Apart from the fact that the microphone is in itself Airtight and watertight capsule e is located, but can also have another here Particularly dry atmosphere can be created by being in this capsule arranges cotton wool sprinkled with chlorinated lime or similar hygroscopic materials.

The sound waves arriving through the outer water act on this Device not directly on the microphone membrane 3, but through the housing io, ii and through the liquid contained therein on the auxiliary membrane 6, both sides is washed around by the liquid, so is relieved. Here come the inside of the liquid container under the influence of the generating apparatus in the Continuous waves spreading outside the body of water formed standing waves on both sides, that is, to a greater extent, on the auxiliary membrane to act. Of this is through the connecting link q. the microphone membrane vibrates accordingly offset, wobai their vibrational force stronger and the sound transmission purer and is louder than with the usual constructions because they do not correspond to the external Pressure is exposed, but only the sound vibrations through the transmission device records.

In Fig. 2 a construction is shown in which the microphone capsule arranged in a housing 2 located on the outside of the liquid container 8 is, so that only the auxiliary membrane 6 remains within the container 8. The connection the auxiliary diaphragm 6 with the microphone diaphragm is made by the rest of the same Means as they have been given in the embodiment according to Fig. I. Such Training has the advantage that the microphone capsule completely out of the liquid removed and therefore absolutely insulated from moisture and that it is for control purposes is more accessible.

The embodiment shown in Fig. 2 has one more particular advantage than the wall ix of the liquid container which breaks through the ship's wall more precisely adapted to the external water pressure prevailing at the point in question, in general, therefore, can be kept much weaker than the hull of the ship itself, so that there is less loss of vibration energy and the Sound waves have a stronger effect on the liquid and on the membrane. The attachment to the ship's wall could also be an andare s-3in, in any such However, the connection must be made with the interposition of insulating material, which muffles the ship's noise.

The container can of course also, without departing from the essence of the invention, have any other shape.

Claims (2)

PATENT CLAIMS: i. Microphone sound wave receiver for underwater signals, in which a microphone located in a closed housing with a Auxiliary membrane is connected, characterized in that the auxiliary membrane (6) in one, hermetically sealed, filled with liquid and on its outer wall The container exposed to the sound waves is housed and on both sides with the liquid is in contact, so that the external pressure fluctuations of the water not directly, but through the body of the container to those in it liquid and only then transferred to the auxiliary membrane on both sides in order to ensure a direct and unilateral load on the auxiliary membrane through the to avoid external pressure of the water. 2. Microphone sound wave receiver according to claim i, characterized in that the microphone housing on the outer wall of the Sound waves exposed container arranged and the microphone through a die Wall of the container penetrating part is connected to the auxiliary membrane.