CN114593811A - A low-pass filter fiber grating hydrophone with cymbal-shaped diaphragm - Google Patents

Abstract

The invention relates to a low-pass filtering optical fiber grating hydrophone using a cymbal-shaped diaphragm, and belongs to the technical field of optical fiber hydrophones. The left side of the casing is fixedly connected to the low-pass filter structure, and the cymbal-shaped diaphragm is fixedly connected between the casing and the low-pass filter. A copper sheet is installed on the diaphragm for fixing the fiber grating, which passes through the hole on the central axis of the hydrophone. The advantages are: the diaphragm structure converts the sound pressure into the volume change of the air cavity, and the volume change is converted into the length change of the fiber grating through the diaphragm, and the structure is simple. The way of fixing the diaphragm and the shell increases the reliability and stability of the structure.

Description

A low-pass filter fiber grating hydrophone with cymbal-shaped diaphragm

technical field

The invention belongs to the technical field of optical fiber hydrophones, and in particular relates to a low-pass filtering optical fiber grating hydrophone using a cymbal-shaped diaphragm.

Background technique

Sound waves are the only form of energy known to man that can travel long distances in seawater. A hydrophone is a type of sensor used to detect underwater sound waves for navigation, measurement and communication. Traditional hydrophones can be divided into electric type, capacitive type, piezoelectric type, etc. according to the principle of detecting underwater acoustic signals.

In recent years, with the rapid development of fiber light source, fiber spectrometer and fiber grating processing technology, fiber grating hydrophone with high performance, miniaturization and high stability is gradually called a new generation of underwater acoustic detection sensor. Fiber grating hydrophones using fiber grating as the sensing source have received extensive attention from domestic and foreign scientific research institutions and scholars in the fields of national defense, military, and detection, and related technologies have achieved unprecedented development. Compared with other types of hydrophones, fiber grating hydrophones have the advantages of low noise, high sensitivity, large dynamic range, and excellent reliability. The packaged optical fibers are used as connectors, which are very suitable for forming large-scale hydrophones. Arrays and fiber optic hydrophones have been used by many countries as key R&D investment in national defense technology equipment.

The fiber grating sensor realizes the sensing function by using the optical waveguide characteristics of the optical fiber and the grating to reflect specific wavelengths and has the modulation effect of sensing specific parameters in the environment. sound signal. Compared with traditional piezoelectric hydrophones, fiber optic hydrophones mainly have the following advantages: wide frequency band, high sensitivity, no electromagnetic interference, small mass, small size and simple structure, combined with fiber optic light source and fiber optic spectrometer, can be integrated It has great application prospects.

At present, improving the pressure sensitivity of FBG hydrophones, using filtering structure to constrain the working frequency range of FBG hydrophones, and improving the structure to adapt to specific applications are the current development directions of FBG hydrophones. How to solve the problem of large acceleration response and high low-frequency noise is an important technical problem in fiber optic hydrophones, which needs to be further explored and improved.

SUMMARY OF THE INVENTION

The technical problem to be solved by the present invention is to increase the reliability and stability of the fiber grating hydrophone during operation by introducing the cymbal-shaped diaphragm and the way that the diaphragm is fixedly connected to the main structure, increase the low-pass filtering structure, and aim at special targets. and sonic signals within a specific frequency range to be captured.

In order to solve the above-mentioned technical problems, the technical scheme adopted in the present invention is:

The low-pass filter (1) structure is fixedly connected to the left side of the housing (3), a cymbal-shaped diaphragm (201) is fixed between the housing (3) and the low-pass filter (1), and a copper sheet (202) is installed on the diaphragm for For fixing the fiber grating (4), the fiber grating (4) passes through the hole on the central axis of the hydrophone; the gap between the fiber grating (4) and the right side of the hydrophone shell is filled with sealing material; the cymbal diaphragm ( 201) and the casing (3) to form a closed cavity; the grid region on the optical fiber is in the closed cavity.

The advantages of the invention are: the diaphragm structure converts the sound pressure into the volume change of the air cavity, the volume change is converted into the length change of the fiber grating through the diaphragm, and the structure is simple. It adopts the way of fixing the diaphragm and the shell, which increases the reliability and stability of the structure.

Description of drawings

Figure 1 is a schematic structural diagram of the present invention.

Detailed ways

The present embodiment will be described in detail with reference to FIG. 1. The low-pass filter fiber grating hydrophone using a cymbal-shaped diaphragm described in the present embodiment has the low-pass filter 1 structure fixedly connected to the left side of the housing 3, and the low-pass filter structure of the housing 3 and the low-pass filter. A cymbal-shaped diaphragm 201 is fixed between 1, and a copper sheet 202 is installed on the diaphragm to fix the fiber grating 4. The fiber grating 4 passes through the hole on the central axis of the hydrophone; the fiber grating 4 is connected to the right side of the hydrophone shell. The gap at the contact position is filled with sealing material; the cymbal-shaped diaphragm 201 and the casing 3 form a closed cavity; the gate area on the optical fiber is in the closed cavity.

The working principle of the fiber grating hydrophone in the present invention is as follows: when the hydrophone receives underwater sound pressure under water, the sound pressure in a specific frequency range can act on the cymbal diaphragm 201 through the low-pass filter 1, and the cymbal The diaphragm 201 will squeeze the air in the cavity and transmit its axial deformation to the fiber grating 4 fixed between the copper sheet 202 and the casing 1. When the fiber grating 4 is axially deformed, it reflects light The wavelength will change, and the corresponding underwater acoustic information can be obtained by measuring the wavelength reflected in the fiber grating 4 .

Claims (1)

1. A low pass filtered fiber grating hydrophone employing a cymbal-shaped diaphragm, comprising: low pass filter (1), cymbal shape diaphragm (201), copper sheet (202), shell (3), fiber grating (4), its characterized in that: the left side of the shell (3) is fixedly connected with a low-pass filter (1) structure, a cymbal-shaped diaphragm (201) is fixedly connected between the shell (3) and the low-pass filter (1), a copper sheet (202) is arranged on the diaphragm and used for fixing a fiber grating (4), and the fiber grating (4) penetrates through a hole in the central axis of the hydrophone; a sealing material is filled in a gap at the contact position of the fiber bragg grating (4) and the right side of the hydrophone shell; the cymbal-shaped membrane (201) and the shell (3) form a closed cavity; the gate region on the fiber is in the closed cavity.

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