KR102670287B1 - Wave absorbing device for water pool - Google Patents

Abstract

The wave-absorbing device provided by the present invention mainly includes a plurality of metal plates (2), one flow plate 1 (3), one flow plate 2 (4), a plurality of water blocking plates (7), It consists of two side plates (11); The upper half of the metal diaphragm 2 is an arched plate, the lower half of the metal diaphragm 2 is a vertical plate, and is perpendicular to the still water surface, and the two ends of the metal diaphragm 2 are each side. Welded to the plate 11, the plurality of metal plates 2 are installed uniformly between the two side plates 11 and arranged in one inclined plane. The present invention can consume water flow energy through the rise of waves, collisions, and increased flow length of the water flow, and prevents the water flow from flowing excessively and intensively into the water tank through multiple split-flows, causing secondary waves. In addition to preventing damage, the device of the present invention has an excellent sofa effect and has a simple structure, so it can be easily implemented.

Description

Water tank sofa device {WAVE ABSORBING DEVICE FOR WATER POOL}

The present invention relates to the field of research in sofa technology, and in particular to devices suitable for attenuating waves in water bath tests.

Adopting a physical model test study in a wave tank can ensure the safety and reliability of the device's sea testing, enable quantitative analysis, and obtain reliable results. A wave maker is an essential piece of equipment in a blue water tank, and its function is to generate waves. However, the boundary of the wave tank reflects waves, and the reflected waves move back and forth between the wave plate and the boundary, forming multiple reflected waves, which can affect the accuracy of model testing. Currently, most of the wave wave tanks at home and abroad and in the sea area opposite the tank are inclined and gravel is often used as the main material. The main principle of these sofas is to consume energy by raising waves. When testing large-scale ship models or high-frequency vibration tests, irregular waves occur in the water tank and the operation test can only be performed after waiting until the water surface becomes calm. This process takes a long time, so it is not acceptable for time-consuming and expensive ship model testing. Therefore, to solve this problem, a sofa device was installed in the water tank. Although the conventional sofa device has a design method such as a breakwater embankment, slope, and grid, the sofa performance needs to be improved.

In the invention of <Aquarium with Sofa Device>, application number CN110080158A, a water tank with a sofa device was described. An inclined sofa grid is installed at the end of the water tank, and a cavity is formed between the back side of the inclined sofa grid and the end wall of the water tank. The sofa device of the invention adopts a blind structure, and the sofa device is designed to be inclined; A cavity is designed on the back of the sofa plate, and a vortex is created inside, which is advantageous in dissipating the energy of the blue; In the sofa device of the present invention, the blind sofa plate of the sofa device is arranged in stages, and it is advantageous to generate vortices and consume water flow energy in the process of waves and water currents rising and falling into the rear cavity. The present invention consumes water flow energy by generating a vortex after the rise and fall of the wave, and at the same time when the water flow moves in free fall through the same gap and then intensively falls directly into the water tank, a lot of energy still remains and can cause secondary waves. there is. In the present invention, there is no device to limit the direction in which the water flow falls, and it cannot be guaranteed that the water flow falls in a certain direction, so a vortex with relatively stable rules cannot be formed and the sofa effect is reduced. Meanwhile, in the present invention, the upper surface of each grid and the bottom of the water tank form a sofa grid of a blind structure with an elevation angle of 10° to 15°, and when the wave is relatively large, it is difficult for the wave to fall into the gap during the rising process, and the opposing Some water flow may return to the tank, creating secondary waves.

<Opposite sea area sofa device>, application number CN105951663B, is a semi-open opposite sea area sofa device consisting of a side plate, an angle, and multiple partitions. Here, the diaphragm is arranged uniformly, both ends of it are welded to two side plates, and the bottoms of the two side plates are connected by an angle; The plurality of partition plates are formed by welding an arc-shaped face plate and a vertical face plate, where the arc-shaped face plate faces upward and the vertical face plate faces downward to form a vertical cavity between the plurality of partition plates; The two side plates are right-angled trapezoidal face plates, and the middle triangle is partially hollowed out. The present invention consumes wave energy by free-falling between the gaps in the diaphragm as the wave propagating to the opposite sea area rises, and can suppress the problem of secondary or multiple reflected waves on the tank wall of the opposite sea area. In the present invention, water flow energy can be consumed by allowing the water flow to freely fall briefly, and at the same time, the water flow can be excessively concentrated into the water tank in the same gap, thereby generating relatively large secondary waves.

The purpose of the present invention is to provide a water tank sofa device that can effectively block the generation of secondary waves by effectively attenuating waves in a water tank test by focusing on the problems of the prior art.

The object of the present invention can be realized through the following technical solutions.

In the water tank sofa device of the present invention, mainly a plurality of metal diaphragms (2), one flow plate 1 (3), one flow plate 2 (4), a plurality of water blocking plates (7), and two side plates (11) It consists of; The side plate (11) is used to weld the plurality of metal plates (2), the flow plate 1 (3), and the flow plate 2 (4), and is stably mounted on the test tank (1);

The upper half of the metal diaphragm 2 is an arched plate, the lower half of the metal diaphragm 2 is a vertical plate and is perpendicular to the still water surface, and both ends of the metal diaphragm 2 are respectively Welded to the two side plates (11), the plurality of metal plates (2) are uniformly installed between the two side plates (11) and arranged in one inclined plane; When the water flow falls from the arch-shaped plate, it changes to fall along the vertical direction, so it falls more easily into the gap, and the vertical plate can effectively limit the wave direction of the falling water flow, which is advantageous in consuming water flow energy.

A gap 1 (5) exists between each arcuate plate of the two metal plates (2); The gap 1 (5) is used to split the water, preventing the water flow from returning directly to the water tank along the slope and causing secondary waves.

A plurality of drain holes 9 are installed on the surface of the water barrier plate 7, and the water barrier plates 7 are respectively fixedly installed at the bottom of the metal diaphragm 2, and the short side of the water barrier plate 7 is welded to the side plate 11, the long side of the clapboard 7 is welded to the bottom of the metal diaphragm 2, and a gap 2 (6) exists between the adjacent clapboards 7, ; The gap 2 (6) and the drain hole (9) on the surface of the water barrier plate (7) act as a dividing force, and several collisions occur when the water flow falls from the gap 1 (5) to the water barrier plate (7). And, the energy of the falling water stream can be further consumed as it collides several times;

The airflow plate 1(3) is fixed and installed at an angle below the metal diaphragm 2, and a gap 3(8) is provided between the airflow plate 1(3) and the metal diaphragm 2; When the water flow rises to a high position, it can fall to the flow plate 1 (3) through the gap and then fall again at the point of gap 3 (8);

The airflow plate 2(4) is fixedly installed at an angle below the airflow plate 1(3), and the airflow plate 2(4) and the airflow plate 1(3) are installed in parallel; The water flow falling from the gap 3 (8) can be slowly introduced into the water tank;

The side plates 11 are fixedly installed on both sides of the tank wall.

In the present invention, a steel metal plate whose surface is plated with a waterproof layer is selected for the metal diaphragm 2.

In the present invention, the conduction plate 1 (3) and the conduction plate 2 (4) may be rectangular plates, and a steel metal plate having a rough surface after processing and a surface plated with a waterproof layer may be selected, When water flows over this surface, it can continuously consume water flow energy.

In the present invention, a steel metal plate whose surface is plated with a waterproof layer may be selected for the conductor plate 1 (3) and the conductor plate 2 (4).

In the present invention, the water barrier plate 7 may be a rectangular plate, and a steel metal plate whose surface is plated with a waterproof layer may be selected.

In the present invention, the two side plates 11 are metal plates with a relatively large mass, and the specific mass size is determined according to the size of the test tank, so that each of the metal diaphragm 2, the flow plate 1 (3), and the flow plate 2(4), is used to weld to the water barrier plate (7) and can be stably mounted in the test water tank.

In the present invention, a lead-containing metal plate with a relatively high density is selected to be plated with a waterproof layer on the side plate 11, so that the entire sofa device can be stably installed in a water tank.

In the present invention, the waterproof layer of the metal diaphragm (2), the flow plate 1 (3), the flow plate 2 (4), the water barrier plate (7), and the two side plates (11) are painted with a metal surface, This corresponds to a method of protecting metal from oxidation corrosion. A protective layer with a good paint finish can continuously remain in perfect condition without defects and can form a protective film that bonds well and inhibits the penetration of corrosive media.

In the present invention, the uneven surface of the airflow plate 1 (3) and the airflow plate 2 (4) can be realized by slightly corroding the surfaces with an acidic solution or sanding the surfaces.

In the present invention, the width of the gap 1 (5) is equal to the difference between the width of the clapboard (7) and the width of the arcuate plate of the metal diaphragm (2).

In the present invention, the width of the gap 2 (6) is equal to the vertical height difference between the two adjacent metal plates (2), that is, the longitudinal height difference of the arcuate plate in the metal plate (2).

In the present invention, the width size of gap 3 (8) is the same as the width of gap 2 (6).

In the present invention, the hole diameter of the drain hole (9) is somewhat smaller than half the width of the water stopper (7).

The present invention has the following technical effects.

1. The upper part used in the present invention is an arched shape, and the lower end is a vertical metal plate. When the water flow falls from the arched surface, it changes to fall along the vertical direction, so it falls more easily into the gap, and in a situation where the height is the same, the arched plate The flow distance of the water flow on the plate is longer than that of the inclined plate, and at the same time, the wave direction of the water flow falling through the vertical part of the metal plate can be effectively limited, which is advantageous in dissipating water flow energy, resulting in a better sofa effect. You can.

2. The water tank sofa device can consume water flow energy through the rise of waves and at the same time consume more energy by increasing the flow path of the water flow.

3. The water tank sofa device can prevent water flow from excessively flowing into the water tank and causing secondary waves by installing a plurality of split-flow openings.

Figure 1 is a front view of the water tank sofa device in this embodiment.
Figure 2 is a structural perspective view of the water tank sofa device in this embodiment.
Figure 3 is a structural front view of the water tank sofa device in this embodiment.
Figure 4 is a structural diagram showing the metal diaphragm 2 of the water tank sofa device in this embodiment.
Figure 5 is a structural diagram showing the flow plate 1 (3) of the water tank sofa device in this embodiment.
Figure 6 is a structural diagram showing the flow plate 2 (4) of the water tank sofa device in this embodiment.
Figure 7 is a structural diagram showing the water barrier plate 7 of the water tank sofa device in this embodiment.

Below, the present invention is further explained by combining specific embodiments and drawings, but the present invention is not limited to these embodiments.

As shown in Figures 1 to 7, in the water tank sofa device of the present invention, there are mainly 12 metal plates (2), one flow plate 1 (3), one flow plate 2 (4), and the number of metal plates. It consists of the same water barrier plate (7) and two side plates (11); The side plate (11) is used to weld a plurality of metal diaphragms (2), flow plate 1 (3), and flow plate 2 (4), and is stably mounted on the test tank (1);

The upper half of the metal diaphragm 2 is an arched plate, the lower half of the metal diaphragm 2 is a vertical plate and is perpendicular to the still water surface, and both ends of the metal diaphragm 2 are respectively on the two sides. Welded to the plate 11, a plurality of metal plates 2 are installed uniformly between the two side plates 11 and arranged in one inclined plane; A gap 1 (5) exists between each arcuate plate of the two metal plates (2); The quantity of metal plates (2) is adjusted according to the specific tank depth.

The water barrier plate (7) is a rectangular plate, and a plurality of drain holes (9) are evenly installed on its surface. A water barrier plate (7) is fixedly installed at each bottom of the metal diaphragm (2), and each water barrier plate (7) ) is welded to the side plate 11, the long side of each water barrier plate 7 is welded to the bottom of the metal diaphragm 2, and a gap 2 (6) is formed between the adjacent water barrier plates 7. exists;

The flow plate 1(3) is a rectangular plate, fixed and installed at an angle below the metal diaphragm 2, and a gap 3(8) is provided between the flow plate 1(3) and the metal diaphragm 2;

The guide plate 2 (4) is a rectangular plate and is fixedly installed at an angle below the guide plate 1 (3), and the guide plate 2 (4) and the guide plate 1 (3) are installed in parallel.

Side plates (11) are fixedly installed on both sides of the tank wall.

The width of gap 1 (5) is equal to the difference between the width of the clapboard (7) and the width of the arched plate of the metal diaphragm (2).

The width of the gap 2 (6) is equal to the vertical height difference between the two adjacent metal plates (2), that is, the longitudinal height difference of the arcuate plate in the metal plate (2).

The width size of gap 3 (8) is the same as the width of gap 2 (6).

The hole diameter of the drain hole (9) is somewhat smaller than half the width of the water stopper (7).

For the metal diaphragm 2, a steel metal plate whose surface is plated with a waterproof layer, that is, the metal surface is painted, is selected.

After being processed into conductor plate 1 (3) and conductor plate 2 (4), a steel metal plate with a rough surface and a surface plated with a waterproof layer, that is, a painted metal surface, is selected.

A steel metal plate whose surface is plated with a waterproof layer, that is, the metal surface is painted, is selected for the water barrier plate 7.

The two side plates 11 are metal plates with a relatively large mass, and a metal plate whose surface is plated with a waterproof layer, that is, a metal plate containing lead with a relatively high density while the metal surface is painted, is selected.

In the present invention, the specific work steps of the water tank sofa device can be divided into several steps as follows.

In the case of a water bath test, the generated waves rise upward along the metal diaphragm (2), dissipating the energy of the waves as they rise.

In the process of rising, the water flow falls from the gap 1 (5) between the metal plates (2) to the water barrier plate (7), causing several collisions. In the collision process, the water flow energy can be consumed again, and finally, the water flow flows through the gap. If it falls from 2 (6) and the drain hole (9), gap 2 (6) and the drain hole (9) act as a split-flow to prevent the water flow from falling intensively.

Finally, the water flow that rises less falls on the flow plate 1 (3), and because the rising height is low, its water flow energy also decreases correspondingly, and finally, the water flow slowly flows into the water tank along the flow plate 1 (3). The water flow with a large rising height first falls to the flow plate 1 (3), then is classified through gap 3 (8), causing the water flow to fall to the flow plate 2 (4), and finally the flow plate 2 (4) slowly flows into the water tank. flows into.

In summary, the water tank sofa device of this embodiment can consume water flow energy through rising, collision, and increased flow length of the water flow, and at the same time, the water flow flows excessively and intensively into the water tank through multiple classifications, causing secondary waves. In addition to preventing secondary waves from occurring, an excellent sofa effect can be realized.

A person skilled in the art may correct and supplement the specific embodiments described in the present invention or adopt similar methods to replace them, without departing from the scope defined in the spirit and claims of the present invention.

1: Test bath
2: Metal plate
3: Flow plate 1
4: Flow plate 2
5: gap 1
6: gap 2
7: Clapboard
8: Gap 3
9: Drain hole
10: still water surface
11: Side plate

Claims (10)

In the water tank sofa device,
It consists of a test tank (1), a plurality of metal plates (2), one flow plate 1 (3), one flow plate 2 (4), a plurality of water barriers (7), and two side plates (11), The side plate is used to weld the plurality of metal diaphragms, the plurality of water barriers, the flow plate 1 and the flow plate 2, and is mounted inside the test tank 1;
The upper half of the metal diaphragm 2 is an arched plate, the lower half of the metal diaphragm 2 is a vertical plate and is perpendicular to the still water surface, and both ends of the metal diaphragm 2 are respectively Welded to the two side plates (11), the plurality of metal plates (2) are installed uniformly between the two side plates (11) and arranged in one inclined plane;
A gap 1 (5) exists between each arcuate plate of the two metal plates (2);
A plurality of drain holes 9 are installed on the surface of the water barrier plate 7, and the water barrier plate 7 is fixedly installed at each lower end of the metal diaphragm 2, and the short side of the water barrier plate is the side. welded to a plate, the long side of the clapboard is welded to the bottom of the metal diaphragm, and a gap 2 (6) exists between the adjacent clapboards (7);
The airflow plate 1(3) is fixed and installed at an angle below the metal diaphragm 2, and a gap 3(8) is provided in the airflow plate 1(3);
The flow plate 2 (4) is fixed and installed at an angle below the flow plate 1 (3);
The side plates 11 are fixedly installed on both sides of the tank wall;
A water tank sofa device, characterized in that a metal plate having a rough surface is selected for the flow plate 1 (3) and the flow plate 2 (4). According to paragraph 1,
A water tank sofa device, characterized in that a steel metal plate whose surface is plated with a waterproof layer is selected for the metal diaphragm (2). According to paragraph 1,
A water tank sofa device, characterized in that a steel metal plate whose surface is plated with a waterproof layer is selected for the flow plate 1 (3) and the flow plate 2 (4). According to paragraph 1,
A water tank sofa device, characterized in that a steel metal plate whose surface is plated with a waterproof layer is selected as the water barrier plate (7). According to paragraph 1,
A water tank sofa device, characterized in that a metal plate containing lead is selected while the surface of the side plate (11) is plated with a waterproof layer. According to paragraph 1,
A water tank sofa device, characterized in that the width of the gap 1 (5) is equal to the difference between the width of the clapboard (7) and the width of the arched plate of the metal diaphragm (2). According to paragraph 1,
A water bath sofa device, characterized in that the width of the gap 2 (6) is equal to the vertical height difference between the two adjacent metal plates (2), that is, the longitudinal height difference of the arched plate in the metal plate (2). According to paragraph 1,
A water tank sofa device, characterized in that the width size of the gap 3 (8) is the same as the width of the gap 2 (6). According to paragraph 1,
A water tank sofa device, characterized in that the hole diameter of the drain hole (9) is smaller than half the width of the water stopper (7). delete