DE19747251C1 - Measuring device support for use on ocean bed - Google Patents

Abstract

The measuring device support has a frame (10) for standing on the ocean bed, with a releasable anchor weight (14), an attached propellant body (12), a data recording device (16) and a sensor (18), e.g. a geophone. An outrider attached to the frame is provided by a sleeve (20) brought into contact with the ocean bed, containing a relatively sliding inner sleeve (22) attached via a cable to the free end of a pivot arm, supporting the sensor, which can be deployed outwards from the sleeve.

Description

The invention relates to one on the sea floor setting measuring instrument carrier (lander).

Such mega equipment to be deposited on the seabed ger are used for example to acoustic or seismic vibrations caused by earthquakes or by artificial sources are generated to register.

From DE 27 25 287 one can be found on the sea floor tzender measuring device carrier known that a dropping a Detector allowed after reaching the sea floor.

The invention has for its object one on the To create seabeds to be set down, which allows the sensor to be to stop the dens automatically.

According to the invention, this object is achieved by the features of claim 1 solved. Claim 2 gives an advantageous Embodiment of the invention.

The invention is described below with reference to a drawing explained. It shows:

Fig. Resgrund 1 is a side view of the device in egg nem state before lowering the Mee,

Fig. 2 is an illustration while lowering to the sea floor, and

Fig. 3 is an illustration after lowering on the seabed.

The here formed as a seabed seismometer Meßge device carrier consists of a frame 10 , a frame attached to the buoyancy body 12 , a detachably attached to the frame anchor 14 , a data recording device 16 and in this exemplary embodiment, the sensor forming geophone 18th

In the illustrated embodiment, a signal flag 30 , a flash lamp 32 and a marking transmitter 34 are shown, which facilitate the retrieval of the measuring device carrier after reappearance. Transponder hydrophones 36 are arranged on the buoyancy body. Within the frame 10 designed as a tripod, a pressure housing 38 is arranged with an acoustic transponder trigger which, upon receipt of a corresponding acoustic signal, throws off the anchor weight 14 and thus causes the rise of the seabed seismometer after the data acquisition has taken place.

The seabed seismometer is provided with a sleeve 20 fastened to the frame 10 , which receives an inner tube 22 which projects downward over the frame 10 in the position shown in FIG. 1. Approximately in the middle of the sleeve 20 , a swivel arm 24 is pivotably attached to it. A rope 28 runs from the upper end of the inner tube 22 via a pivoting rod 26 attached to the upper end of the sleeve 20 to the free end of the pivot rod 24 .

Before the device is placed on the seabed, the geophone 18 to be deposited separately from the device on the sea floor is attached to the free end of the swivel arm 24 , the device is brought into the position shown in FIG. 1. During the Abset is zen, as Fig. 2 shows the inner tube 22 upward in the sleeve 20 pushed, whereby the Ausschwenkarm pivots outward. After fully settling, the swivel arm 24 reaches a horizontal position, when this position is reached the geophone 18 is automatically dropped and is connected to the seabed seismometer via a cable 40 .

When caused by an acoustic signal and the consequent throwing off of the anchor weight 14 rising of the seabed seismometer, the inner tube 22 will slide out again due to its weight out of the sleeve 20 downwards and thereby fold the swivel arm 24 back up to the sleeve 20 .

Claims (2)

1. Measuring instrument carrier to be set down on the sea floor, with
a frame ( 10 ) standing up when used on the seabed,
a buoyancy body ( 12 ) attached to the frame,
an anchor weight releasably attached to the frame ( 10 ) ( 14 ),
a data recording device ( 16 ),
a sensor ( 18 ) and
a boom, consisting of a to the frame ( 10 ) attached sleeve ( 20 ), one of the sleeve ( 20 ) from this protruding and when it is placed on the seabed in the sleeve ( 20 ) insertable inner tube ( 22 ), one on the sleeve ( 20 ) ver pivotally attached swivel arm ( 24 ) and one of the upper end of the inner tube ( 22 ) via an at the upper end of the sleeve ( 20 ) arranged deflection roller ( 26 ) to the free end of the swivel arm ( 24 ) running Rope ( 28 ). 2. Measuring instrument carrier according to claim 1, characterized by a dropping of the at the free end of the swivel arm ( 24 ) attached sensor ( 18 ) allowing device.