KR20120032942A - Apparatus to test model ship - Google Patents

Abstract

PURPOSE: A model ship testing device is provided to promote the accuracy of a response model test by a second absorbing unit which can absorb scattered wave generated from a stopped model ship. CONSTITUTION: A model ship testing device comprises a water tub(1), a wave generator(3), a first wave remover(5), and a second wave remover(7). The water tub contains water, and a model ship(S) is placed therein. The wave generator is provided on one side of the water tub. The first wave remover is placed on the water tub to face to the wave generator. The first wave remover removes the wave generated from the wave generator. The second wave remover is placed between the wave generator and the first wave remover. The second wave remover is installed on both sides of the water tub and absorbs the scattered wave from the side of the water tub.

Description

Apparatus to test model ship}

The present invention relates to a model ship testing apparatus capable of dissipating scattered waves produced by model ships in a tank for response model tests in waves at the side of the tank.

In general, when a model test, which is a ship performance test, is carried out in a towing tank, the wave produced by the model ship is reflected on the side wall of the tank. When conducting tests with model ship propagation speeds, these reflected waves arrive after the model ship passes and do not significantly affect the test results.

However, if the model line, such as a special line, is fixed at a certain point and the kinetic performance test is carried out during the stop, the wave made by the model line is reflected back from the side wall of the tank, and the model line is added again by the reflected wave. Because of the exercise, there is a problem that adversely affect the test results.

Embodiments of the present invention minimize the disturbance of the incident wave by absorbing the side reflection wave reflected from the side portion of the tank when the wave test of the model ship stationary like a special ship, the degree of response model test in the wave model I want to improve.

According to an aspect of the present invention, the water is accommodated and the model ship is disposed, the sowing machine provided on one side of the tank, disposed in the water tank of the position facing the sowing machine sofa sofa It includes a first waver to be disposed between the sowing machine and the first waver and installed on both sides of the tank to absorb the scattering wave produced by the model ship in the side of the tank,

The second sofa may be provided with a model ship testing apparatus including a first absorbing portion disposed in the same direction as the horizontal plane of the water contained in the tank, the second absorbing portion coupled to the lower portion of the first absorbing portion.

The second absorbing portion may be disposed toward the bottom of the tank.

In addition, the second sofa may include a height adjusting unit for adjusting the height of the first absorbing portion.

In addition, the height adjustment portion rotating shafts coupled to the side of the water tank, connecting members hinged to the rotating shafts and hinged to the first absorbing portion, the position adjusting line connected to the first absorbing portion, the position It may include a winch for adjusting the upper and lower positions of the first absorption unit by winding an adjustment line.

In addition, the second absorbing part may be disposed in parallel with the perforated plates provided with the perforated parts.

In addition, the perforated plates may be made smaller as the perforated portion is disposed closer to the wall surface side of the tank.

In addition, the perforated plates may be disposed at intervals between the first perforated plate, the second perforated plate, and the third perforated plate from the central side of the water tank to the wall surface side of the water tank.

The perforated plates may have a ratio of the area occupied by the perforated parts provided to the first perforated plate to the area of the first perforated plate to be 70% or more and 80% or less, and the second perforated plate with respect to the area of the second perforated plate. The ratio of the area occupied by the perforated parts provided in the above is made of 45% or more and 55% or less, and the ratio of the area occupied by the perforated parts provided in the third perforated plate to the area of the third perforated plate is 20% or more and 30% or less. It may be made of.

In addition, a fourth perforated plate provided with perforations is disposed between the first perforated plate and the second perforated plate, and a fifth perforated plate provided with other perforated parts is disposed between the second perforated plate and the third perforated plate. The four perforated plate and the fifth perforated plate may be coupled to the first absorbing part.

In addition, the height of the fourth perforated plate and the fifth perforated plate may be in the range of 40% or more and 60% or less with respect to the height of the first perforated plate.

Embodiments of the present invention provide a second absorbing portion for absorbing the scattered wave generated from a stationary model ship, such as a special ship, on the side of the tank used for the performance test of the ship to make the side reflected wave reflected from the side of the tank transmitted The accuracy of response model tests in waves can be improved.

1 is a view schematically showing a towing tank in which a sofa device for explaining an embodiment of the present invention is installed.
2 is a view showing a sofa device for explaining an embodiment of the present invention.
3 is a cut-away view of the III-III part of FIG. 1.
4 is a view showing in detail the side sofa device for explaining an embodiment of the present invention.
5 is a view showing another example of the side sofa device of the embodiment of the present invention.
6 is a view showing another example of the side sofa device of the embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a view for explaining an embodiment of the present invention, it shows a model ship test apparatus that can perform a ship performance test. Model ship testing apparatus may include a water tank (1), sowing machine (3), the first sofa (5), the second sofa (7).

The water tank 1 of the embodiment of the present invention may be a towing tank or a water tank that can be used for a towing test when performing a towing test. The water tank 1 may have a certain width and may have a shape having a relatively long length compared to the width. In addition, the tank 1 may be filled with water at a constant height, and a model ship S may be disposed.

In the embodiment of the present invention, the water tank 1 is called the front part of the part in which the sowing machine 3 is installed, and the opposite end of the part in which the sowing machine 3 is installed is called the rear part. The description will be made.

A sowing machine 3 is installed at one end of the water tank 1, that is, the front part. The sowing machine 3 can generate a wave which can perform a wave test, and a conventional thing can be used.

And the first sofa 5 is arranged on the rear side of the water tank 1, which is the opposite side of the sowing machine (3). The first parser 5 serves to prevent the wave generated in the sowing machine 3 from being absorbed and reflected back when it hits the rear surface of the opposite side.

The first sofa 5 may be a conventional one in a structure capable of absorbing waves. Therefore, a detailed description of the first sofa 5 will be omitted.

As shown in FIG. 1, the second sofa 7 may be provided in a plurality of numbers along both sides of the tank. In the embodiment of the present invention, since the structures of the second sofas 7 are the same, only one example will be described.

2 and 3 show a second sofa 7 for explaining an embodiment of the present invention. Hereinafter, the structure of the second sofa 7 according to the embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3.

The second sofa 7 is disposed between the sowing machine 3 (shown in FIG. 1) and the portion where the first sofa 5 (shown in FIG. 1) is disposed, and both sides of the water tank 1 are disposed. Scattered waves provided by the model ship (S) can be absorbed in the side portion of the water tank (1).

The second sofa 7 includes a first absorbing portion 9 arranged horizontally, and a second absorbing portion 11 coupled to a lower portion of the first absorbing portion 9. And the second sofa 7 includes a height adjusting unit 19 that can adjust the height of the first absorbing portion (9).

The first absorbing portion 9 is disposed along the longitudinal direction of the water tank. The first absorbing part 9 may be formed in the form of a single plate by arranging bar-shaped members such as pipes side by side at regular intervals and combining them. The first absorbing part 9 may be locked to the surface of water or just below the surface of the water and disposed in a direction parallel to the surface of the water.

The first absorbing unit 9 is capable of absorbing the side waves when the wave made by the model ship is transferred to the side in the towing test. The first absorbent 9 may be placed on the water surface in the towing test to perform a side sofa function, and may be used above the water surface in a wave experiment of a stationary model ship such as a special ship.

The second absorbing part 11 may be disposed in the vertical direction below the first absorbing part 9. The second absorbing part 11 may be formed of a plurality of perforated plates provided with perforated parts.

As an example of the embodiment of the present invention, the second absorbing part 11 has a predetermined width and length and is provided with the first punching plate 13, the second punching plate 15, and the third punching plate provided with the punching parts 13a, 15a, and 17a. (17) may be included. The first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 may have a long square shape.

The first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 may be vertically disposed at the side of the water tank 1 along the length direction of the water tank 1. That is, the first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 are maintained in a direction in which the perforated portions 13a, 15a, and 17a face the side surface of the water tank 1 while maintaining a constant interval. It is arranged in the water tank 1.

The height adjusting unit 19 serves to lock the first absorbing unit 9 of the second sofa 7 to the surface of the water or lift the surface of the water.

The height adjusting unit 19 installs the rotating shafts 21 on the side wall of the water tank 1, and couples the connecting members 27 to the rotating shafts 21, 23, and 25.

And the connecting member 27 is hinged to both ends of the first absorbing portion (9). That is, the first absorbing part 9 may be connected to the connecting member 27 to move the position of the first absorbing part 9 up and down while rotating about the rotation shafts 21 and 25. And the end of the first absorbing portion (9) is coupled to the position adjusting line 29, the position adjusting line 29 can be wound or released by the winch (31). In particular, the above-described rotation shaft (21, 23, 25) is formed in the form of a roller for supporting the positioning line 29 can be made of a structure that can move smoothly when the positioning line 29 moves.

Meanwhile, the first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 may be sequentially disposed from the center of the water tank 1 to the wall surface of the water tank 1, as shown in FIG. 4. As it is, the diameter of the perforations 13a provided in the first perforated plate 13 is made larger than the diameter of the perforations 15a provided in the second perforated plate 15. In addition, the diameters of the perforations 15a provided in the second perforated plate 15 are larger than the diameters of the perforations 17a provided in the third perforated plate 17.

The smaller the diameters of the perforations 13a, 15a, and 17a provided in the first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 toward the side of the water tank 1 are wave tests. In order to effectively absorb the scattered wave generated by the wave hit the model line (S) in the stationary state at several stages.

In addition, the ratio of the area occupied by the perforations 13a provided in the first perforated plate 13 to the area formed by the first perforated plate 13 may be 70% or more and 80% or less.

The ratio of the area occupied by the perforations 15a provided in the second perforated plate 15 to the area formed by the second perforated plate 15 may be 45% or more and 55% or less.

The ratio of the area occupied by the perforations 17a provided in the third perforated plate 17 to the area formed by the third perforated plate 17 may be 20% or more and 30% or less.

In this way, when out of the range of the area occupied by the perforations 13a, 15a, and 17a, the function of the sofa of the scattered wave transmitted to the side of the water tank 1 may be significantly reduced.

Referring to the operation of the embodiment of the present invention made in this way in detail as follows.

The case of placing the model ship S in the water tank 1 and performing the wave test like the special ship will be described. The first absorbing part 9 and the second absorbing part 11 of the second sofa 7 are assumed to be exposed to the upper side of the water surface, and will be described. At this time, when the winch 31 is driven to release the position adjusting line 29, the first absorbing part 9 and the second absorbing part 11 are lowered by their own weight.

Therefore, the second absorbing portion 11 is locked below the surface of the water. That is, the first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 of the second absorbing parts 11 are submerged in water.

And when a wave is generated in the sowing machine (3), some waves hit the model line (S) to generate a scattering wave moving to the side of the water tank (1). The scattering wave is dissipated by passing through the perforations 13a, 15a, and 17a provided in the first perforated plate 13, the second perforated plate 15, and the third perforated plate 17 of the second absorbing portions 11 in sequence. .

Therefore, the scattered wave generated by hitting the model line (S) is extinguished can block the generation of the reflected wave on the side of the tank (1). Therefore, good test results can be obtained from wave tests.

In the case of the towing test of the model ship S, the winch 31 is operated so that the first absorption part 9 is disposed at the surface or just below the surface of the water through the above-described operation process. Towing the model ship using a separate towing device (not shown). Then, the sofa is made by the first absorbing part 9 while the wave hit by the moving model ship moves to the side.

As described above, the embodiment of the present invention uses the water tank that can be towed to the model ship as it is, and when the wave test of the model ship is in a stationary state such as a special ship, the scattered wave hit by the model ship is couched and reflected from the side of the tank 1. By reducing the reflected wave, good test performance data can be obtained.

FIG. 5 is a view for explaining another example of the embodiment of the present invention and shows the perforated plate 33. Other examples of the perforated plate 33 of the embodiment of the present invention will be described only in comparison with the description of the above-described embodiment.

In another example of the embodiment of the present invention, the perforated part 33a provided in the perforated plate 33 may have a rectangular shape. In the description of the above-described embodiment, the perforations are described by showing an example made of a circle, but is not limited to this example and may be formed in various shapes such as a square. Another example of this embodiment of the present invention is to show that the present invention can be implemented in various ways depending on the convenience of processing.

6 shows another example of an embodiment of the invention, showing a second sofa 7.

Another example of the second sofa 7 of the present invention will be described only in comparison with the above-described example and the same parts will be replaced by the description of the above-described example.

The second absorbent part 11 provided in the second example 7 of the present invention has a fourth punched plate provided with another punched portion 35a between the first punched plate 13 and the second punched plate 15. The fifth perforated plate 37 provided with other perforated parts 37a may be disposed between the second perforated plate 15 and the third perforated plate 17.

The fourth perforated plate 35 and the fifth perforated plate 37 are coupled to the first absorbing unit 9. The fourth perforated plate 35 and the fifth perforated plate 37 may be formed of a long square.

The height h of the fourth perforated plate 35 and the fifth perforated plate 37 is preferably in the range of 40% or more and 60% or less with respect to the height H of the first perforated plate 13.

Of course, even when the fourth perforated plate 35 and the fifth perforated plate 37 are installed, the size of the perforated parts may gradually be reduced from the center side to the side of the water tank 1.

As such, another example of the embodiment of the present invention can be sufficiently absorbed from the side of the water tank 1 scattering wave generated in the model ship can further maximize the effect of the sofa.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

1. countertop, 3. sowing machine,
5. the first sofa, 7. the second sofa,
9. The first absorption part, 11. The second absorption part,
13. The first perforated plate, 15. The second perforated plate,
17. third perforated plate, 19. height adjustment part,
21, 23, 25. rotating shaft, 27. connecting member,
29. Positioning bar, 31. Winch,
35. Fourth Percussion Plate, 37. Fifth Percussion Plate

Claims (10)

Tank where water is received and model ships are placed,
Sowing machines provided on one side of the tank,
A first parser disposed in a water tank at a position facing the sowing machine to sofa the waves generated from the sowing machine,
It is disposed between the sowing machine and the first spawning device and installed on both sides of the water tank includes a second sowing wave absorbing the scattering wave produced by the model ship in the side of the water tank,
The second parser
A first absorption part disposed in the same direction as the horizontal plane of the water accommodated in the tank,
A second absorbing portion coupled to a lower portion of the first absorbing portion
Model ship testing apparatus comprising a. The method of claim 1,
The second absorbing part
Model ship testing apparatus disposed toward the bottom direction of the tank. The method of claim 1,
The second parser
Model ship testing apparatus including a height adjusting unit for adjusting the height of the first absorbing unit. The method of claim 3,
The height adjustment unit
Rotating shafts coupled to the side of the tank,
Connecting members hinged to the rotating shafts and hinged to the first absorption part;
Position adjusting line connected to the first absorbing portion,
Winch for adjusting the upper and lower positions of the first absorbing portion by winding the position adjusting line
Model ship testing apparatus comprising a. The method of claim 1,
The second absorbing part
Model ship testing apparatus in which the perforated plates provided with perforations are arranged side by side in parallel. The method of claim 5,
The perforated plates are
Model line test apparatus made smaller in size of the perforations are disposed closer to the wall surface side of the tank. The method of claim 5,
The perforated plates are
And a first perforated plate, a second perforated plate, and a third perforated plate disposed at intervals from the central side of the water tank to the wall surface side of the water tank. The method of claim 7, wherein
The perforated plates are
The ratio of the area occupied by the perforations provided in the first perforated plate to the area of the first perforated plate is 70% or more and 80% or less,
The ratio of the area occupied by the perforations provided in the second perforated plate to the area of the second perforated plate is 45% or more and 55% or less,
And a ratio of the area occupied by the perforations provided in the third perforated plate to the area of the third perforated plate is 20% or more and 30% or less. The method of claim 7, wherein
Between the first perforated plate and the second perforated plate is provided a fourth perforated plate provided with other perforations,
Between the second perforated plate and the third perforated plate is provided a fifth perforated plate provided with other perforations,
The fourth perforated plate and the fifth perforated plate is coupled to the first absorbing portion model ship testing apparatus. 10. The method of claim 9,
And a height of the fourth perforated plate and the fifth perforated plate is in a range of 40% or more and 60% or less with respect to the height of the first perforated plate.

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