DE3809349A1 - Protective container for a hydrophone - Google Patents

Abstract

A protective container for accommodating a marine seismic hydrophone situated on the sea bed is specified. The container is formed from two perforated sheet-metal parts in the shape of half shells, and the hydrophone (9) is mounted axially in it, preferably by the use of retaining loops (11-13). The effect of the invention is to improve the sensitivity of the hydrophone when used on the sea bed with reference to the noise response (performance) of the hydrophone when in a flow. <IMAGE>

Description

The invention relates to a protective container for a hydro phon, especially on marine seismic measuring cables after the Preamble of claim 1.

For shallow water measurement in marine seismics, in hydrophones usually attached to the cable ends on the Seabed filed to record marine seismic signals to be able to get out of the underground after triggering a broadcast signals are reflected. To ensure adequate measurement results To achieve, the hydrophones are in a dense grid set and depending on the flow conditions especially anchored to an immovable position consider that special for the accuracy of the measurement Meaning is.

Typically used hydrophones have a housing in which the actual receiving parts, i.e. Printing or Movement receiver, are included. If such Hydro phone lying on the ocean floor, is often part of the Hydrophone openings directly on the floor, so that the Recording of marine seismic signals through sand or silt may be disabled. With unfavorable flow conditions  the hydrophones will then sink into the ground relatively quickly rinsed and lose their functionality.

The invention is therefore based on the object of an arrangement to improve the reception conditions of marine Specify seismic hydrophones that are simple and cost effective is inexpensive to manufacture, the recording conditions of the Hydro Phons improved and at the same time a protection against Um influences.

This task is by the He specified in claim 1 finding solved. Advantageous developments of the invention are specified in subclaims.

The protective container according to the invention is essentially as closed, cylindrical container formed, the perforated like a perforated plate on its entire circumference. The hydrophone is located axially inside the container without direct contact with the container wall and is hung there freely.

In this way, the hydrophone can be seismic on all sides Receive signals, causing interference from hanging up on the seabed are turned off. Furthermore, the Ge driving reduces that the hydrophone is flushed into the ground becomes. As a further advantage, it follows that the flow ge noises are kept away from the actual hydrophone housing and therefore the basic noise of the hydrophone is reduced.

The invention is illustrated below by means of an embodiment explained in more detail. Show it:

FIG. 1 is a view of a disassembled protective container,

Fig. 2 is a side view of the individual elements of a protective container,

Fig. 3 is a radial sectional view of a protective container in the assembled state.

The protective container shown in Fig. 1 consists of two approximately half-shell-shaped halves 1 and 2 , which are each provided with a disc-shaped end wall 3 and 4 , respectively. Assembling the two halves 1 and 2 results in a closed, cylindrical container. The complete loading container is preferably constructed in the manner of a perforated plate, as a result of which the seawater can penetrate into the container relatively freely from all sides. The holes are preferably circular, the diameter of which is greater in the jacket region 7 of the cylinder than in the end region 8 . This results in an improvement in the noise behavior of the hydrophone inserted in the inner container.

The container is preferably screwed together near the end walls by two screws which are inserted through opposite holes in the two halves. In order to avoid abortion on the sea floor, brackets 5 and 6 are provided on both container halves 1 and 2 , to which fastening chains can be placed in order to be able to anchor the container firmly to the sea floor.

Fig. 2 shows the protective container according to the invention in side view. The two halves 1 and 2 are again taken apart. Inside the container, the schematically shown hydrophone is shown, which is connected to an end cable 10 . To guide the end cable 10 through the end wall 3 , this is preferably seen ver with a recess 14 .

Fig. 3 shows a composite protective container with inserted hydrophone. 9 In order to fix the hydrophone 9 in the center of the protective container, a plurality of holding loops 11 to 13 are preferably provided, which avoid direct contact of the hydrophone 9 with the container wall, but can fix the hydrophone in an axially central position. The damping properties of the loops are dimensioned so that no structure-borne noise can be transmitted from the container to the hydrophone.

The container can also be made with an open pore foam, such as e.g. Polyurethane foam filled in the middle the hydrophone is located.

The protective container is preferably made of relatively thick walled sheet steel to achieve a certain weight. The parts of the individual halves are preferably through Welding linked together.

Reference symbol list

1 half
2 half
3 end wall
4 end wall
5 brackets
6 brackets
7 holes
8 holes
9 hydrophone
10 cables
11 loop
12 loop
13 loop
14 recess

Claims (9)

1. Protective container for receiving a lying on the bottom of a sea, marine seismic hydrophone ( 9 ), characterized in that the container is cylindrical closed, perforated plate-like perforation on the entire circumference, and the hydro phon ( 9 ) axially within the container without direct contact with the container wall can be freely suspended. 2. Protective container according to claim 1, characterized in that the container consists of two halves ( 1 , 2 ), each of which is half-shell-shaped. 3. Protective container according to claim 2, characterized in that each half has a disc-shaped end wall ( 3 , 4 ) on one of the end faces, so that two halves assembled at their edges ( 1 , 2 ) form a closed, cylindrical container. 4. Protective container according to claim 2 or 3, characterized in that each of the halves ( 1 , 2 ) has a fastening bracket ( 6 , 7 ) on the end face. 5. Protective container according to claim 1, characterized in that holding loops ( 11-13 ) for contactless loading fastening of a hydrophone ( 9 ) are provided in the interior of the container. 6. Protective container according to claim 1, characterized in that an open pore foam in the space between hydro phon and container wall is provided. 7. Protective container according to claim 3, characterized in that at least one of the end walls ( 3 , 4 ) has a cutout ( 14 ) for carrying out the hydrophone connection cable ( 10 ). 8. Protective container according to claim 3, characterized in that the halves ( 1 , 2 ) can be screwed together. 9. Protective container according to claim 1, characterized in that the perforated plate-like openings are designed as circular holes, the diameter of which is greater in the jacket area ( 7 ) of the cylinder than in the front loading area ( 8 ).