RU2191399C2 - Method of monitoring level of pressure of noise emission of running underwater object in testing water basin - Google Patents

Abstract

FIELD: hydroacoustics; on-line monitoring of noise emission parameters of running underwater object in testing water basin at any preset period of time. SUBSTANCE: capsule with hydrophone held by variable-depth sonar cable of adjustable length is thrown through hatch in hull and is towed by running object, thus making it possible to check parameters of noise emission in the most important direction aft direction. Upon completion of measurements, capsule is self-destroyed. EFFECT: enhanced efficiency of monitoring. 6 cl, 1 dwg

Description

 The invention relates to the field of hydroacoustics and can be used for operational control of noise parameters of a moving underwater object in a natural reservoir at any time. Known methods for a similar purpose, consisting in recording the noise parameters of an underwater object using a hydroacoustic measuring means (RSI) located in a natural reservoir in the form of a measuring hydroacoustic antenna located at the bottom of a reservoir, and subsequent processing of the recorded RSI information [1-3].

 The latter method is adopted as a prototype.

 The disadvantage of the prototype [3] is the inability to control the noise parameters of a moving underwater object directly in the open sea far from coastal bases (measuring sonar ranges). The technical result obtained from the implementation of the invention is to eliminate this drawback, i.e. obtaining the ability to control noise emission parameters, in particular, the noise pressure level of a moving underwater object directly in marine conditions away from coastal bases.

 This technical result is achieved due to the fact that in the known method of controlling the noise pressure of a moving underwater object in a natural reservoir, consisting in recording the noise emission parameters of an object using a sonar RCI located in the reservoir and subsequent processing of the recorded RSI signal, the sonar RCI is thrown onto the cable for board and tow it behind an underwater object.

 As a RSI, you can use a hydrophone with a highly directional directivity characteristic, mounted on a hollow capsule with information processing units located in it.

 The RSI measured information about the noise emission parameters of a moving underwater object is sent directly to the underwater object via a cable.

 When processing information, an autocorrelation analysis of the recorded signals is used.

 RSI is thrown overboard of an underwater object through its hatch in the housing on an adjustable cable length.

 After the measurement, the cable is torn off and the RSI is self-destructed.

 The invention is illustrated in the drawing, which shows a diagram for implementing the method.

 From a moving underwater object 1 through the hatch in the housing (not shown in the drawing), the capsule 3 is ejected onto the cable cable 2.

 According to the signal supplied through the cable cable 2 to the capsule 3, its outer surface is revealed and the RSI in the form of a pointed hydrophone 4 is oriented to the rear of the object 1. The cable length 2 can be adjusted, for example, using a winch (not shown in the drawing) installed on the underwater device 1. The capsule 3 is equipped with a controlled self-destruction system (not shown in the drawing).

 The method is implemented as follows.

 Hydroacoustic noise in the form of waves 5, propagating in the opposite direction to the movement of object 1, is recorded using hydrophone 4 and is subjected to preliminary processing in capsule 3. Then, via cable cable 2, the obtained information extracted from interfering noise using autocorrelation analysis is sent to the underwater Object 1 for final processing and registration.

 Measurements can be repeated at various modes of movement of object 1 and various distances between the object and the RSI. Thus, the noise pressure level of a moving underwater object in the most important (stern) direction is monitored. After the measurement, the cable 2 is broken. In this case, after a predetermined time, an explosive device located in the capsule 3 is triggered and the last self-destructs.

 Thus, unlike the prototype, the method allows you to control the main parameter of the noise emission of the object at any predetermined point in time without returning to the coastal base, thereby achieving the technical result.

Sources of information
1. RF patent 2063106, cl. H 04 R 29/00, 1992.

 2. RF patent 2108002, cl. H 04 R 1/44, 1998.

 3. RF patent 2010456, cl. H 04 R 1/44, 1992 - prototype.

Claims (6)

 1. The method of controlling the noise pressure level of a moving underwater object in a natural reservoir, which consists in recording the noise emission parameters of the object using a sonar measuring instrument located in the reservoir and subsequent processing of the signal registered by the measuring means, characterized in that the noise emission parameters of the object are recorded using a towed sonar working measuring instrument, previously thrown on a cable-cable overboard th moving object.  2. The method according to claim 1, characterized in that a hydrophone with a highly directional directivity characteristic mounted on a hollow capsule with information processing blocks located in it is used as a hydroacoustic working measurement tool.  3. The method according to claim 1 or 2, characterized in that the information about the noise parameters of a moving underwater object measured with a hydroacoustic working means of measurement is sent via a cable to the underwater object itself.  4. The method according to claim 1, characterized in that the hydroacoustic working means of measurement is thrown on the cable-cable overboard through the hatch in the body of the underwater object.  5. The method according to claim 1, characterized in that the hydroacoustic working measuring instrument is thrown overboard of an underwater object on a cable that is adjustable in length.  6. The method according to claim 1, characterized in that after carrying out hydroacoustic measurements, the cable-cable of the towed measuring means is cut off, and the working measuring means is self-liquidating.

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