RU2571181C1 - Apparatus for monitoring underwater noise of water craft - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention relates to hydroacoustics and can be used for real-time monitoring of parameters of underwater noise of water craft using a hydroacoustic working measuring instrument from the water craft itself. A working measuring instrument on a tether equipped with a flexible suspension is dropped overboard at a given distance from the water craft in stabilisation mode and without movement of the water craft. Parameters of hydroacoustic noise of the water craft are then measured from the water craft. The flexible suspension on the tether eliminates hydrodynamic noise.

EFFECT: enabling monitoring, using working measuring instrument dropped overboard, of noise parameters in water craft stabilisation mode without movement of the water craft, eliminating hydroacoustic vibrations of the tether of the working measuring instrument on water craft noise parameter measurement results.

2 cl, 1 dwg

Description

The invention relates to the field of hydroacoustics and can be used for operational control of the parameters of the underwater noise of a watercraft using a hydroacoustic working measuring instrument (RSI) from the watercraft itself.

A device is known for monitoring underwater noise of a craft from a craft itself, adopted as a prototype, comprising a hydroacoustic RSI with a pre-processing unit, mounted on a cable cable with the possibility of their extension overboard the craft using a winch, and a stationary electronic information processing unit connected to the RSI ( Patent No. 2191399, CL G01S 3/02, 2002).

The disadvantages of the prototype are its limited use only in the case of measuring the parameters of underwater noise in the aft direction of the craft and the effect of hydroacoustic vibrations of the RSI cable cable on the results of measurements of the parameters of underwater noise.

The technical result obtained from the implementation of the invention is to obtain the possibility of controlling the noise parameters using the ejected outboard RSI in the mode of stabilization of the watercraft without running it, as well as eliminating the hydroacoustic vibrations of the RSI cable cable on the results of measurements of the noise parameters of the watercraft.

This technical result is achieved due to the fact that the known device for monitoring underwater noise of a watercraft contains a hydroacoustic measuring instrument with a pre-processing unit, mounted on a cable cable with the possibility of its extension overboard the watercraft using a winch, as well as stationary and electronic information processing units connected to the measuring tool, further comprises a winch with a cable-cable fixed to it with a working measuring tool and a preliminary unit th processing performed by negative buoyancy, with the winch and stationary electronic data processing unit located on the boats, and the cable-rope is provided with an elastic suspension.

The RSI is made with an upward oriented radiation pattern.

The invention is illustrated in the drawing, which shows a diagram of a device for monitoring underwater noise of a craft.

The device comprises a hydroacoustic RSI 1 with a pre-processing unit 2, mounted on a watercraft 3 with a wheelhouse 4 by means of a cable 5, which is pulled out by means of a winch 6 overboard the watercraft 3.

There is also a stationary electronic information processing unit 7 located inside the watercraft 3 and electrically connected to the output of the RSI 1 through the preliminary processing unit 2.

The cable cable 5 is equipped with an elastic suspension 8, made near RSI 1 with block 2 pre-processing. A specific implementation of the elastic suspension 8 is the know-how of the applicant.

Seals 9 are made at the exit points of the cable cable 5 from the preliminary processing unit 2 and the cable cable input 5 to the unit 2.

The specific implementation of the seals 9 is the know-how of the applicant.

RSI 1 and block 2 pre-processing made negative buoyancy. The place of entry (exit) of the cable cable 2 into (out of) the watercraft 3 is made near the cabin 4. RSI 1 is made with a radiation pattern 10 oriented upwards towards the watercraft 3.

The device operates as follows.

When controlling the underwater noise of the watercraft with 3 commands from the control panel (not shown in the drawing), RSI 1 is etched upward with block 2 and elastic suspension 8 at a predetermined distance from the watercraft body 3 using winch 6. These operations are carried out in the mode of stabilization of the watercraft, without move.

Then, the hydroacoustic noise parameters of the craft 3 are measured using RSI 1, the signal from which, after preliminary processing in block 2, is sent via cable cable 5 to the stationary electronic information processing unit 7.

The presence of seals 9 allows reliable sonar measurements of the noise parameters of the craft 3, protecting the electronic equipment of the device from exposure to aggressive environments in the form of salt water.

The presence of an elastic suspension 8 near the RSI 1 with block 2 eliminates or significantly attenuates hydrodynamic interference to the measuring means through the cable 5.

This achieves the set technical result.

Claims (2)

1. A device for monitoring underwater noise of a watercraft, comprising a hydroacoustic working measuring instrument with a preliminary processing unit, mounted on a cable cable with the possibility of its extension overboard the watercraft using a winch, as well as stationary and electronic information processing units connected to the measuring instrument, characterized in that it further comprises a winch with a cable-cable fixed to it with a working measuring tool and a pre-processing unit, made negative buoyancy, while the winch and stationary electronic information processing unit are located on the boat, and the cable is equipped with an elastic suspension. 2. The device according to claim 1, characterized in that the hydroacoustic working measuring instrument is made with a radiation pattern oriented upwards.