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A phase-inverted deep-sea flexural-tensional hydroacoustic transducer

A flextensional transducer and underwater acoustic transducer technology, applied in the fields of ocean exploration and underwater acoustic communication, can solve the problems of inability to work in deep water, restrict the high-power emission capability of functional materials, and low acoustic radiation efficiency, and achieve enhanced resistance to Effects of Reverb Interference Ability

Active Publication Date: 2020-11-03
HARBIN ENG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] However, Type IV flextensional transducers also have inherent disadvantages: they cannot work in deep water
The traditional type IV flextensional transducer is an air-backed structure. The main problem brought about by this is: when placed in a deep water environment, the shell of the transducer bears the hydrostatic pressure pointing inward, and the functional material in the long axis direction (such as piezoelectric ceramic material PZT-8, rare earth material Terfenol-D), the prestress exerted by the recovery force of the flexural shell will be released, which restricts the high-power emission capability of functional materials
However, there is an unavoidable problem in adopting the pressure release scheme of overflow for Type IV flextensional transducers: the sound radiation efficiency is greatly reduced, because: when Type IV flextensional transducers are working with overflow, each radiation The surface is equivalent to a dipole sound source, and the two dipoles are in opposite directions, so its acoustic radiation model can be regarded as longitudinal quadrupole radiation. At low frequencies (ka6 It is directly proportional to the sound radiation efficiency of the longitudinal quadrupole at low frequencies. Once the IV type flextensional transducer uses the overflow form, although the working depth is greatly improved, the radiated sound power will be greatly reduced.

Method used

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  • A phase-inverted deep-sea flexural-tensional hydroacoustic transducer
  • A phase-inverted deep-sea flexural-tensional hydroacoustic transducer
  • A phase-inverted deep-sea flexural-tensional hydroacoustic transducer

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Embodiment 1

[0028] to combine image 3 and Figure 4 , the invention discloses a phase-inverted deep-sea flextensional underwater acoustic transducer, comprising a Type IV flextensional transducer, an inverter tube 2 and a connection structure, and two phase-inversion tubes 2 are respectively located at the ends of the Type IV flextensional transducer At both ends, the ends of the two inverter tubes close to the Type IV flextensional transducers are connected by a connection structure, and the Type IV flextensional transducers are fixed between them by the connection structure.

[0029] to combine figure 1 , Type IV flextensional transducer has an elliptical shell 1 on the outside and a drive unit 3 inside; the elliptical shell 1 is an overflow structure made of metal materials such as aluminum alloy and titanium alloy or composite materials such as carbon fiber and glass fiber. Material, with a transition block in the long axis direction of the shell; the drive unit 3 is made of active...

Embodiment 2

[0037] to combine figure 1 , the embodiment of the present invention is to provide a kind of inverted deep-sea flexural transducer, which includes a type IV overflow flexural transducer, two half-wavelength elliptical cylindrical shell-shaped inverter tubes 2; The transducer consists of an elliptical housing 1 with a transition block in the long axis direction and a drive unit 3.

[0038] In this embodiment, the drive unit 3 can be a piezoelectric ceramic crystal pile formed by bonding an even number of piezoelectric ceramic sheets, and thin electrode sheets can be arranged between the piezoelectric ceramic sheets for leading out cables. It can be covered with vulcanized rubber layer to achieve watertight effect.

[0039] to combine figure 2 , The half-wavelength inverter tube 2 in the present invention is an elliptical cylindrical shell, and an elliptical metal ring 6 with several through holes is attached to one end thereof. In the embodiment of the present invention, th...

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Abstract

The invention discloses a phase-inverted deep-sea flextensional transducer, which belongs to the technical fields of ocean exploration and underwater acoustic communication. The phase-inverted deep-sea flextensional transducer includes an IV flextensional transducer, phase-inverted tubes, and a connecting structure. The two phase-inverted tubes are respectively disposed at the two ends of the IV flextensional transducer. The two phase-inverted tubes are connected by the connecting structure at the ends near the IV flextensional transducer. The IV flextensional transducer is fixed between the phase-inverted tubes by the connecting structure. The IV flextensional transducer is provided with an elliptical shell outside and a driving unit inside. The elliptical shell is provided with a transition block in the long-axis direction. The driving unit is composed of piezoelectric ceramic or rare earth giant magnetostrictive material or other active materials. Because of the adoption of half-wavelength phase-inverted tubes, the flextensional transducer can work at low frequency in deep sea, just like the traditional overflow flextensional transducer, and also has the characteristic of high-power and directional emission. The flextensional transducer can be used in fields such as low-frequency active sonar, long-range underwater acoustic communication, and marine environmental monitoring based on acoustic means.

Description

technical field [0001] The invention belongs to the technical fields of ocean detection and underwater acoustic communication, and in particular relates to a phase-inverted deep-sea flexural extensional underwater acoustic transducer. Background technique [0002] Underwater acoustic equipment is an important ocean observation equipment, which uses sound waves to carry information to detect and identify underwater targets. The transducer is a key component of underwater acoustic equipment, which relies on it to exchange electrical and acoustic energy. According to different working conditions, transducers are divided into two categories: transmitting transducers that convert electromagnetic energy into acoustic energy and receiving transducers (or called hydrophones) that convert acoustic energy into electromagnetic energy. The transmitting transducer converts the electromagnetic vibration energy into mechanical vibration energy, thereby pushing the water medium to vibrate,...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G10K9/12G10K9/122
CPCG10K9/121G10K9/122
Inventor 桑永杰蓝宇吴彤丁玥文
Owner HARBIN ENG UNIV
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