KR20110127918A - Ecosounding directing apparatus and method thereof - Google Patents

Abstract

PURPOSE: An acoustic hypsography expression apparatus and an expression method thereof are provided to compare actual submarine topography with submarine topography scanned using ultrasonic waves through a screen, thereby enabling a user to easily comprehend submarine topography searching principles using an acoustic hypsography method. CONSTITUTION: A main body(10) is comprised of a lower body(11) and an upper body(12). A button part(30) and submarine topography comprising rod(40) are included in the upper part of the lower body. A screen(20) is installed in the inside of the upper body. A transparent window(13) made of a transparent acrylic material is installed in the opened front surface of the upper body. An inspection panel(14) is installed to be able to be opened and closed in a lateral surface of the lower body.

Description

Echo sounding directing device and directing method {ECOSOUNDING DIRECTING APPARATUS AND METHOD THEREOF}

The present invention relates to an acoustic sounding method directing device and a method for directing, and more particularly, to an acoustic sounding method directing device and the method of directing the sound sounding method for measuring the seabed topography by ultrasonic waves.

The development of acoustical exploration technology in seabed exploration was due to our efforts to identify situations under the sea that we could not enter.

The most basic thing in marine exploration is to measure the depth of the ocean. At first, the lead was hung on a string and the depth of the string was measured to measure the depth, but according to this method a large error occurred.

The acoustic wave is a method of measuring the exact depth.

Light emitted from inert gases such as helium, neon, argon, krypton, xenon and radon and halogens does not travel more than 15 meters underwater. Although the laser beam has high precision, it cannot progress more than 40m in seawater, and electromagnetic waves have a limitation in being utilized because energy is rapidly decreased in the water column.

Sound waves, on the other hand, are the most useful means in acoustic exploration because they have a low frequency and have a small amount of reflection and return to objects in the water column and a low resolution but less attenuation in the water.

In the case of the exploration technology using sound waves, the acoustic measurement method first used in the 19th century was a very primitive method, but in the 20th century, the acoustic wave detection equipment that developed the interpretation of the development of the seabed according to the band of the sound source has been developed. It has become an essential exploration technology for oil exploration in the country.

Although the importance of acoustic sounding method, which occupies an important position in underwater exploration, has been acknowledged, it has not been developed a device that can easily recognize the general ground by which the general people search the seabed topography.

Disclosure of Invention An object of the present invention is to solve the above-mentioned problems, and to provide an apparatus and a method for producing an echo sounding method so that the general public can easily understand the principle of searching for a seabed topography by acoustic echo sounding.

The present invention to achieve the above object, the main body; A button unit provided in the main body; A screen provided in the main body and sequentially displaying images for subsea exploration by pressing the button unit; An undersea component bar provided in the main body and configured to directly construct the undersea terrain by the visitor according to the undersea terrain displayed on the screen; An actual subsea model provided in the main body; And a controller provided in the main body.

The present invention may further include a model boat sliding along the upper portion of the main body in accordance with the navigation of the exploration boat displayed on the screen.

A transparent window is installed on an open front surface of the space where the screen is installed, and the screen is installed to face the front side in the space.

The actual subsea model made of a transparent material is placed in the lower part of the space, and a lighting lamp for illuminating the real submarine model is installed in the lower part of the real sub sea model.

The undersea component rod is formed of a magnet, and a hollow magnetic body magnetically connected to the undersea component rod is provided inside the through hole through which the undersea component rod penetrates on the main body.

In order to achieve the above object, the present invention, (a) pressing the button portion to select the sea to be explored; (b) scanning the specific seabed topography using ultrasonic waves in response to a command by the rover to explore the particular seabed topography on the screen; (c) the visitor constructing the seabed topography using the seabed topography bar according to the seabed topography scanned through the step (b); (d) pressing the completion button of the button unit reveals the actual seabed topography by the illumination and is seen from the outside, and the visitor compares the actual seabed topography with the subseabed topography that he constructed; And (e) implementing an image for acoustic echometry through the screen.

In the system (b), the exploration boat moves on the screen and the model boat moves at the same time.

According to the acoustic echo directing device and the directing method according to the present invention, by watching the seabed terrain scanned by the ultrasonic wave on the screen, the viewer implements the seabed topography and compares it with the actual seabed topography, It is easy to understand the principle of searching for seabed topography.

1 is a perspective view showing an acoustic sounding method production apparatus according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of an acoustic sounding method production apparatus according to an embodiment of the present invention.
3 is a plan view showing the button portion and the subseabed component bar.
4 is a cross-sectional view showing an installation state of a seabed terrain component rod.
Figure 5 is a cross-sectional view showing the actual installation of the seabed terrain.
6 and 7 are views showing the installation state of the model ship.
8 is a flow chart illustrating a process of producing an acoustic echo method through the sound echo method directing apparatus according to an embodiment of the present invention.

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

1 is a perspective view showing an acoustic echo directing device according to an embodiment of the present invention, Figure 2 is an exploded perspective view of an acoustic echo directing device according to an embodiment of the present invention.

In accordance with an embodiment of the present invention, the apparatus for sound echometry, the main body 10, the screen 20, the button 30, the subseabed component bar 40, the actual subsea terrain 50, model ship 60 ) And the control unit 70.

The main body 10 has a lower body 11 having a button portion 30 and a subsea-shaped component bar 40 at an upper portion thereof, and a screen 20 installed in an upper portion of the lower body 11. Consisting of an upper body 12. The upper body 12 is formed in a form in which the front is open, the transparent front window 13 is made of a transparent acrylic material so that the inside is exposed. On the side of the lower body 11, the access plate 14 is installed to open and close.

The screen 20 is installed to face the front in the upper body 12, by the operation of the button 30 to display the image for the seabed-type exploration in sequence.

The button unit 30 is used to implement an image through the screen 20.

The seabed terrain bar 40 is provided with a plurality on the upper portion of the lower body 11 and are installed to be moved up and down, respectively. Therefore, the visitor can configure the seabed topography bar 40 to configure the seabed topography.

The actual seabed 50 is installed in the upper body 12, it is made of a transparent acrylic plate.

The model ship 60 is slid long in the horizontal direction on the upper portion of the upper body 12. The model ship 60 moves simultaneously with the search ship displayed on the screen 20.

The control unit 70 is installed in the lower body 11, the image on the screen 20 and the model ship 60 by the signal input during the operation of the button unit 30 and the subseabed component bar 40 Will automatically control the operation of.

3 is a plan view showing a button portion and a seabed-like construction rod.

The button unit 30 is composed of three start buttons 31, 32, 33 and one completion button 34.

The three start buttons 31, 32, 33 are for selecting the sea to be explored, respectively. For example, each start button 31, 32, 33 can select the Pacific, Atlantic or Indian Ocean, respectively. The completion button 34 is pressed by the viewer after configuring the seabed topography using the seabed topography bar 40.

When the viewer presses the completion button 34, the actual seabed terrain 50 is revealed by the illumination lamp 90 to be described later, and the viewers can compare the seabed terrain and the actual seabed terrain 50 that they have configured. On the other hand, when the completion button 34 is pressed, the image for the echo sounding method through the screen 20 is described as animation.

Contour lines may be displayed on the upper surface of the seabed terrain bar 40 as shown in FIG.

4 is a cross-sectional view showing the installation state of the subseabed component rod.

A plurality of subseabed component bars 40 are provided and penetrate through a plurality of through holes 11a spaced apart from an upper surface of the lower body 10, respectively. The subsea ridge component rod 40 is formed of a magnet, and a hollow magnetic body 80 to which the subsea ridge component rod 40 is detachably attached to the inner surface of the through hole 11a is provided. At this time, it is also possible to form the undersea component bar 40 by a magnetic body instead of a magnet, and to form the magnetic body 80 by a magnet.

Therefore, the viewer can configure the seabed terrain of the desired shape by lowering or lifting each seabed terrain rod 40 to a desired height by pressing or lifting the seabed terrain rod 40.

5 is a cross-sectional view showing the actual installation of the seabed terrain.

The actual seabed topography 50 is provided with three, but is not limited to this can be added as many as the desired number of sea. This actual seabed terrain 50 is placed on the inner bottom of the upper body 12. The actual seabed 50 is made of a transparent acrylic plate.

Under the actual subterranean topography 50, lighting lamps 90 are installed, respectively, to illuminate the actual subterranean topography 50, so that visitors can see the actual subterranean topography 50.

A plurality of grooves 12a are formed on the inner bottom surface of the upper body 12, and the actual subsea terrain 50 is inserted into the upper portion of the grooves 12a, and the lamps 90 are disposed below the grooves 12a. Each LED module used as) is installed. The LED module is composed of an LED substrate 91 and the LED element 92.

According to the actual undersea terrain having such an installation structure, when the light is irradiated from the lower portion of the undersea terrain (50) to the upper by using the lamp 90, only the outline of the upper is illuminated to the outside. The upper outline shows the actual seabed topography.

6 and 7 are views showing the installation state of the model ship.

The model ship 60 is installed to be movable in the horizontal direction the upper portion of the upper body (12). Pulleys 100 and 101 are respectively installed on both upper sides of the upper body 12, and one pulley 101 is axially coupled to the driving motor 110. Two pulleys 100 and 101 are connected by a belt 120.

On the upper portion of the upper body 12, the rail 130 is formed long in the horizontal direction. Coupling portion 61 formed in the lower portion of the model ship 60 surrounds the rail 130 to be slidable, it is also coupled to the belt 120.

According to the model boat 60 having such an installation structure, the model boat 60 is slid left and right along the rail 130 while the belt 120 is rotated by the driving of the driving motor 110. The movement of the model boat 60 is the same as the movement of the exploration boat displayed on the screen 20.

8 is a flowchart illustrating a process of producing an acoustic echo method through the apparatus for sound echo method according to an embodiment of the present invention.

First, the visitor selects the sea to be explored through the start buttons 31, 32, 33 of the button unit 30 provided in the lower body 11 (S10).

When the viewer selectively presses the start buttons 31, 32, and 33, the probe is operated on the screen 20 under the control of the controller 70 to operate the seabed according to the command to explore the specific seabed topography, while using the ultrasonic wave to perform a specific seabed topography. Scan (S20). In the course of the exploration boat navigation on the screen, the model boat 60 is also moved.

When the scan of the specific seabed topography is completed on the screen 20, the visitor sees the scanned seabed topography and configures the seabed topography using the seabed topography bar 40 (S30).

After the viewer configures the seabed terrain, the viewer presses the completion button 34 of the button unit 30 (S40).

When the completion button 34 is pressed, the actual subsea terrain 50 in the upper body 12 is revealed by the lamp 90 and is shown to the outside (S50), and the viewers actually subsea terrain 50 and the subsea terrain Comparing the seabed topography implemented through the configuration bar 40 is compared (S60).

If the seabed topography implemented by the visitor in the comparison step (S60) matches the actual state, the process proceeds to the next step. Otherwise, the visitor goes through the process of constructing the seabed topography once again.

When the seabed topography configured by the viewer coincides with the reality, the screen 20 undergoes a process of implementing an image for sound echoography through the screen 20 (S70).

As described above, the present invention has been described based on the preferred embodiments, but the present invention is not limited to the specific embodiments, and those skilled in the art can change the scope within the scope of the claims. have.

10: main body 11: lower body
12: upper body 13: transparent window
20: screen 30: button portion
31, 32, 33: Start button 34: Finish button
40: seabed topography bar 50: actual seabed topography
60: model ship 70: control unit
80: magnetic material 90: lighting
100, 101: pulley 110: drive motor
120: belt 130: rail

Claims (7)

main body;
A button unit provided in the main body;
A screen provided in the main body and sequentially displaying images for subsea exploration by pressing the button unit;
An undersea component bar provided in the main body and configured to directly construct the undersea terrain by the viewer according to the undersea terrain displayed on the screen;
An actual subsea model provided in the main body; And
An echo sounding production device comprising a control unit provided in the main body. The method of claim 1,
And a model ship sliding along an upper portion of the main body in accordance with the navigation of the exploration boat displayed on the screen. The method according to claim 1 or 2,
A transparent window is installed on an open front surface of the space in which the screen is installed, and the screen is installed so as to face the front in the space. The method of claim 3, wherein
The actual subsea model made of a transparent material is placed in the lower portion of the space, the sound echo method for directing the device, characterized in that the lower part of the real subsea model is installed to illuminate the real subsea model. The method of claim 1,
The subsea ridge component rod is formed of a magnet, and the inside of the through hole through which the subsea ridge component rod passes through the hollow magnetic body magnetically connected to the subsea ridge component rod is provided. Rendering device. (a) selecting a sea to be explored by pressing a button;
(b) scanning the specific seabed topography using ultrasonic waves in response to a command by the rover to explore the particular seabed topography on the screen;
(c) the visitor constructing the seabed topography using the seabed topography bar according to the seabed topography scanned through the step (b);
(d) pressing the completion button of the button unit reveals the actual seabed topography by the illumination and is seen from the outside; And
(e) a method for producing an echo sounding method comprising the step of realizing an image of the acoustic sounding method through the screen. The method according to claim 6,
In the (b) system, the sounding method of the sounding method, characterized in that the exploration boat moves on the screen and the model boat moves at the same time.

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