KR101539363B1 - Apparatus for detecting air sound wave which is installed in spar structure of sea - Google Patents

Abstract

The present invention relates to an apparatus for detecting an air sound wave which is installed in a spar structure of the sea, capable of accurately detecting a sound wave which is spread to the air in the sea without the penetration of external noise. An apparatus for detecting an air sound wave according to the present invention is an apparatus of detecting a sound wave which is spread to the air which is installed at a side of a spar structure of the sea. The apparatus includes: a low frequency air sound wave sensor which receives a low frequency sound pressure signal spread to the air and generates a detection signal; a porous hose which blocks noises and transmits the low frequency sound pressure signal to the low frequency air sound wave sensor; and a bellows pipe which surrounds the porous hose and is made of a flexible material having penetration holes. Both ends of the bellows pipe are closed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an aerial acoustic wave

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air acoustic wave sensing device installed in a sea spar structure, and more particularly, to an air acoustic wave sensing device installed in an oceanic spa structure capable of accurately sensing low- Sensing device.

Generally, an air acoustic wave sensor for detecting low frequency sound waves is installed on the ground, and the sensor detects not only a minute change in atmospheric sound pressure but also a sound wave of volcanic explosion energy, a sound wave generated when a meteor falls, .

The apparatus for collecting conventional air acoustic waves includes a main body portion having at least one connecting nipple to which at least one porous acoustic wave collecting hose for collecting air acoustic waves is connected, for example, as disclosed in Korean Patent No. 1067438, A sound wave transmitting portion for transmitting the sound waves collected at the passage portion to the sensor, and a support for spacing the main body portion from the ground at a predetermined interval.

The conventional aerial acoustic wave collecting device thus constructed is free from the risk of flooding and deformation even when exposed to the outside environment such as the outdoors and forms a sound acoustic wave collecting device having a structure in which the arrangement of the acoustic wave collecting hose is stable and the degree of freedom is secured, Thereby maximizing the efficiency of collection and ensuring convenience of maintenance.

However, when the conventional air acoustic wave collecting apparatus is applied to the sea, the porous acoustic wave collecting hose is corroded by the salt, and the noise generated from nature by wind, wave, thunder, lightning, And it is difficult to accurately measure the sound waves.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art. Accordingly, it is an object of the present invention to provide an air conditioning system, which minimizes the influence of noise even in a severe marine environment, And to provide a sound wave sensing device.

In order to accomplish the above object, an air acoustic wave sensing apparatus installed in an on-water spa structure according to an embodiment of the present invention is an apparatus installed on one side of a marine spa structure to detect a sound wave propagated to the air A low-frequency public acoustic wave sensor configured to receive a low-frequency sound-pressure signal propagating to the atmosphere and generate a sensing signal, a porous hose configured to receive noise and transmit only a low-frequency sound pressure signal to the low-frequency sound wave sensor, And a corrugated pipe made of a flexible material having a plurality of through holes surrounded by the outside; And the corrugated tube is characterized in that both end portions are closed.

In the sound wave sensing device installed in the sea spar structure according to the above embodiment, the corrugated pipe may be made of a plastic material.

In the sound wave sensing device installed in the sea spar structure according to the above embodiment, the corrugated pipe may be made of stainless steel.

According to the air acoustic wave sensing apparatus installed in the sea spar structure according to the embodiment of the present invention, the porous hose for blocking noise and receiving only the low-frequency sound pressure signal and delivering it to the low-frequency air acoustic wave sensor, Since the corrugated pipe made of one material is configured to be enclosed from the outside, the effect of noise can be minimized even in a severe sea environment, so that accurate air sound waves can be sensed and the sensing device can be prevented from being corroded by salt .

1 is a horizontal cross-sectional view showing the construction of an acoustic sound wave sensing device installed in a sea spar structure according to an embodiment of the present invention.
FIG. 2 is a view showing a state in which an air acoustic wave sensing device installed in a marine spa structure is flexibly folded according to an embodiment of the present invention.
3 is a view for explaining a position where the sound wave sensor of FIG. 1 is installed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a horizontal sectional view showing a configuration of an acoustic sound wave sensing device installed in a sea spar structure according to an embodiment of the present invention. FIG. 3 is a view for explaining a position where the air acoustic wave device of FIG. 1 is installed; FIG.

An aerial sound sensor installed in a marine spa structure according to an embodiment of the present invention is mounted on the marine spa structure shown in Fig.

The water spar structure is composed of a buoy (f) which generates buoyancy, an underwater acoustic sensor which is fixed to an anchor fixed through a steel pipe (P) and projects a spike pulse to the sea and receives the reflected signal, (HP) and a tower portion (T) located above the sea level (SEA LEVEL) and equipped with a solar panel (SP), a communication device, a GPS antenna, a weather apparatus and the like.

The air acoustic wave sensing device installed on the sea spar structure according to the embodiment of the present invention is mounted in a folded state in a frictional manner as shown in FIG.

1, an air acoustic wave sensing apparatus installed in a marine SPA structure according to an embodiment of the present invention includes a low frequency acoustic wave sensor 30, a porous hose 20, and a corrugated pipe 10, as shown in FIG.

The low-frequency air acoustic wave sensor 30 is mounted on one side of the marine spa structure to detect a sound wave propagated to the air. For example, a micro-barometer can be used, and a vibration- And can detect minute sound waves.

The porous hose 20 minimizes the ambient noise of the sensor coming from the outside and generates a low frequency sound pressure signal (for example, a sound wave caused by an earthquake transmitted from Japan, a volcanic explosion energy sound wave, a sound wave generated when a meteor falls, Etc.) through a plurality of fine holes and transmit them to the low-frequency air acoustic wave sensor 30.

The corrugated pipe 10 is configured to surround the porous hose 20 from the outside and both ends are closed. The corrugated pipe 10 is formed with a plurality of through holes 10a through which a sound wave signal is transmitted, and is made of a flexible material (for example, plastic or stainless steel). Therefore, the corrugated pipe 10 can prevent the porous hose 20 from being corroded by the salt generated in the sea, and can increase the rigidity of the porous hose 20 provided inside, to some extent, and the noise introduced into the porous hose 20 To a greater degree.

The operation of the air acoustic wave sensing device installed on the marine SPA structure according to the embodiment of the present invention will now be described. It is assumed that the noise is minimized and the low-frequency sound pressure signal is received and transmitted to the low- Since the hose 20 is configured to surround the corrugated pipe 10 made of a flexible material having a plurality of through holes 10a from the outside, the influence of noise can be minimized even in a severe marine environment, And it is possible to prevent the porous hose 20 from being corroded by salt. In addition, since the corrugated pipe 10 surrounds the porous hose 20 from the outside, the rigidity of the porous hose 20 can be increased to some extent.

Although the best mode has been shown and described in the drawings and specification, certain terminology has been used for the purpose of describing the embodiments of the invention and is not intended to be limiting or to limit the scope of the invention described in the claims. It is not. Therefore, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: corrugated pipe 10a: through hole
20: porous hose 30: low frequency air acoustic sensor
T: Tower part f: Buoy
P: Steel pipe HP: Underwater acoustic sensor

Claims (3)

Apparatus for detecting sound waves propagated to the air mounted on one side of a marine spa structure outside the sea:
Frequency air acoustic wave sensor configured to receive a low-frequency sound pressure signal propagated to the atmosphere and generate a detection signal,
A porous hose having one side coupled to the low frequency acoustic wave sensor to reduce noise and to receive a low frequency sound pressure signal and deliver it to the low frequency ambient sound wave sensor,
And a corrugated pipe made of a flexible material having a plurality of through holes and surrounding the porous hose from the outside;
Wherein the corrugated pipe is closed at both ends thereof. The method according to claim 1,
Wherein the corrugated tube is made of a plastic material. The method according to claim 1,
Wherein the corrugated pipe is made of a stainless steel material.

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