JPH0823131B2 - Wave breaker - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a wave-eliminating device that extinguishes wave energy by dissipation of energy by reflection or breaking waves.

<Prior Art> Various wave breakers have been proposed to secure a safe harbor water area. These are generally breakwater structures (breakwaters) in which structures and obstacles are fixed or stacked on the sea floor.
In general, the wave-dissipating effect is large, but the seawater exchange function is poor, and the construction cost increases as the water depth increases. Various simple wave canceling devices have been proposed to make up for the drawback, and one example thereof is shown in FIG. This wave breaker D
Has a structure in which the pontoon 1 is fixed below the water surface 7 on the support columns 9 at both ends fixed to the seabed 8. The wave-dissipating action of the device D is that the water depth suddenly increases on the submerged pontoon 1. Wave energy is dissipated and dissipated by wave breaking caused by the shallowness.

<Problems to be Solved by the Invention> However, in the case of the above-mentioned fixed pontoon, in order to obtain a predetermined wave-dissipating effect, the wave-disintegrating is attempted by wave breaking.
It is necessary to install the pontoon near the surface of the water and also to increase the width of the dam body. Therefore, a large amount of wave force acts on the pontoon, and in order to make it a structure that can withstand this, the construction cost increases because the structure has a large cross section, and there is a problem in economic efficiency.

The present invention has been made to solve the above problems, and provides a wave canceling device that reduces the construction cost and simplifies the shape and configuration of the entire structure and that exhibits an excellent wave canceling function. The purpose is to do.

<Means for Solving the Problems> The present invention has been made in view of the above objects, and the gist thereof is to arrange a pontoon having an impermeable or a plurality of openings arranged below the water surface, and the pontoon to the seabed. A support part for supporting and fixing, a hinge part interposed between the pontoon and the support part for rotating the pontoon with respect to the support part in response to vertical movement of the water surface, and the pontoon in a fixed position. The wave-dissipating device comprises spring means for returning.

It is also possible to provide the support portion at one end of the pontoon via the hinge portion, and provide the support portion at the other end via the spring means.

Further, a support portion is provided in the central portion of the pontoon via the hinge portion, and the support portion is provided to the front end portion and the rear end portion of the pontoon in the traveling direction of the incident wave via the spring means. Is also good.

Furthermore, the pontoon is provided with a center folding mechanism that bisects into a front portion and a rear portion with respect to the traveling direction of the incident wave, and the front end portion and the rear end portion are respectively provided with the support portions via the hinge portions. With that, it is possible to provide the spring means for connecting the front part and the rear part.

<Operation> In the wave canceller according to the present invention, the pontoon arranged below the water surface receives vertical movement of the water surface, that is, water pressure (vertical force) that changes as the wave progresses, and the hinge portion is used as a fulcrum. Start the pivotal movement. By this rotating motion, a radiation wave having a phase different from that of the incident wave is generated to cancel the incident wave and the transmitted wave, and on the pontoon, the incident wave is broken to act to smooth the water surface. .

<Embodiment> The wave canceller A according to the present invention will be described with reference to FIGS. 1 to 3.

In the figure, a box-shaped pontoon 1 has a large number of openings 2 penetrating from the upper surface to the lower surface, and is made of a material having a specific gravity equal to or smaller than that of seawater, or a gas is injected into the inside. Appropriate buoyancy is given by a known method such as. The pontoon 1 is fixed to a stake 5 as a supporting portion at a lower portion of one end thereof via a hinge structure portion 3, and a spring device 4 having an appropriate spring constant is provided at a lower portion of the other end of the pontoon 1. The stake 5 is fixed through.
The pontoon 1 is installed on the seabed 8 by a concrete block 6 so that the entire pontoon 1 is located in the water at a predetermined depth from the water surface 7.

The surplus buoyancy of the pontoon 1 has a function of promoting the rotational movement of the pontoon 1 by the incident wave 10 while keeping the tension coil spring in an appropriately extended state (a state of being appropriately contracted if a compression coil spring is used) in a stationary state. At the same time
It also acts as a restoring force for the force that pushes down the pontoon 1.

The spring device 4 acts as a restoring force for the force that pushes up the pontoon 1, and also has an impact force relaxing effect.

The opening 2 of the pontoon 1 contributes to reduction of wave energy loss and vertical force due to vortices generated around the opening generated by the rotational movement of the pontoon 1.

Next, the wave breaking operation of the wave breaking device A will be described while partially comparing it with the conventional wave breaking device D shown in FIG.

First, the conventional wave canceling device D in which the pontoon 1 and the supporting column 9 are directly fixed to each other is
Does not rotate, and suppresses the amplitude of the transmitted wave 11 by reflection, breaking wave, wave splitting (conversion from long wavelength to short wavelength), and the like. On the other hand, the wave breaking device A includes the hinge structure 3 and the spring device 4.
When the incident wave 10 is received, the pontoon 1 makes a pivotal movement with the hinge structure 3 as a fulcrum. That is, when the peak of the incident wave 10 comes on the pontoon 1,
The entire pontoon 1 tries to sink due to water pressure (vertical force), but since the vertical movement of the end on the hinge structure side is restricted, the pontoon 1 sinks due to contraction of the spring device 4 on the opposite side. (Fig. 2a). Next, when the valley of the incident wave 10 arrives on the pontoon 1, the water pressure becomes low, so that the entire pontoon 1 tries to float up due to the restoring force due to the excess buoyancy, but the end on the hinge structure side moves up and down. Since the movement is restricted, the spring device 4 on the opposite side expands, so that the pontoon 1 floats (Fig. 2b). Since each of the above-described operations alternates with the progress of the wave, the pontoon 1 performs a pivotal movement with the hinge structure 3 as a fulcrum, and the radiation wave 12 is generated by this movement. This emitted wave 12 is the incident wave 10
Since the phase of the transmitted wave 11 is different from that of the transmitted wave 11, they cancel each other and the amplitude of the transmitted wave 11 is reduced (FIG. 3).

In this embodiment, the pontoon 1 is provided with a large number of apertures 2 having a constant aperture ratio, and when the apertures 2 move up and down, vortices are generated around the apertures and the energy of the incident wave 10 can be lost. it can. The opening 2 also contributes to the reduction of vertical force.

In the wave canceling device A, even if the incident directions of the waves shown in FIG. 1 are opposite, the pontoon 1 moves in the same manner as described above, and a similar wave canceling effect can be expected.

Further, as shown in FIG. 4a, the wave canceller A may be arranged with the pontoon 1 tilted at a predetermined angle θ ° toward the water surface with the hinge structure 3 as a fulcrum. Also in this case, when the incident wave 10 is received, the pontoon 1 rotates about the hinge structure 3 as a fulcrum, and the radiated wave 12 is generated by this movement and cancels each other with the transmitted wave 11 to reduce the amplitude of the transmitted wave 11. Let Also, the water depth gradually becomes shallower as the incident wave 10 travels on the pontoon 1, but the pontoon 1 is
Wave energy is also dissipated by the wave breaking action caused by this shallow water depth.

Also, as shown in FIG. 4b, with the pontoon 1 similarly tilted, the hinge structure 3 is formed at the front end in the wave traveling direction.
May have a structure in which the spring device 4 is provided at the rear end. In this case as well, the same action as the wave canceling device shown in FIG. 4a is performed, and the same wave canceling effect is exhibited.

Another embodiment is shown in FIG. The wave breaker B has a hinge structure 3 provided at the lower center of the pontoon 1,
The spring devices 4 are arranged at the lower portions of the front end and the rear end of the pontoon 1 with respect to the wave traveling direction. The pontoon 1 in this wave-eliminating device B is
Radiation waves are generated by rotating the hinge structure 3 as a fulcrum.
Is generated, and the amplitude of the transmitted wave 11 is reduced as described above.

Yet another embodiment is shown in Figure 6a. The pontoon 1 of the wave canceller C has a front end 1a and a rear end 11b in the traveling direction of the incident wave.
Are divided into two parts, and they are respectively connected by a hinge structure 3c. A spring device for connecting the front end side 1a and the rear end side 1b of the pontoon 1 to the upper surface and the lower surface of the pontoon 1.
4a and 4b are provided respectively. If the specific gravity of the pontoon 1 is set to approximately 1, the pontoon 1 of the wave canceller C will be in a substantially horizontal state in still water. Incident wave due to wave progression
When the 10 peaks are directly above the pontoon 1, the pontoon 1 sinks around the central hinge structure 3c, and at this time, the spring device 4a attached to the upper surface of the pontoon 1 contracts and the lower surface of the pontoon 1 falls. The spring device 4b attached to is extended. Further, when the valley of the incident wave 10 comes directly above the pontoon 1, the spring devices 4a and 4b act as restoring forces, respectively, and the central hinge structure 3c is pushed upward (as shown in FIG. 6b). State of broken line). By repeating this operation as the wave progresses, the radiation wave 12 described in the wave canceller A is generated, and the amplitude of the transmitted wave 11 is reduced.

Although the example in which the opening 2 is not provided in the pontoon 1 of the wave cancellers B and C shown in the above-described embodiment is shown, it is of course possible to provide the opening 2 and the opening 2 moves up and down. As described above, it is possible to generate a vortex in the vicinity of 2 and to lose the energy of the incident wave 10.

Also, even if the pontoon 1 moves in the direction opposite to the traveling direction (forward direction) of the waves illustrated in the description of the respective wave-eliminating devices A, B, C, each pontoon 1 performs the same movement as in the forward direction, and the Exert a wave effect.

Further, the pile 5 is exemplified as the support portion for supporting and fixing the pontoon 1 shown in the present embodiment to the seabed, but other than this, any other mooring rope or the like can be used as long as the pontoon can be moored to the seabed. It is not limited.

<Effects> The wave canceling device according to the present invention is a pontoon having an opaque or plural openings, a support part for supporting and fixing the pontoon to the seabed, and a hinge part capable of rotating the pontoon with respect to the support part. And, because it is composed of spring means for returning the pontoon to a fixed position, by changing the water pressure with the vertical movement of the water surface accompanying the progress of the incident wave, by rotating the pontoon with the hinge portion as a fulcrum, Since a radiation wave having a phase different from that of the transmitted wave is generated to cancel the incident wave and the transmitted wave, the wave-dissipating action can be performed more efficiently than in the case where a fixed pontoon is adopted as in the related art.

In addition, since spring means is adopted, in the event of a storm, etc.
It is also possible to avoid exerting a large impact force on the support portion that supports and fixes the pontoon.

Furthermore, since the structure and the configuration of the entire structure are simple, the construction cost can be reduced, and the wave-eliminating device having extremely high practicality can be provided.

[Brief description of drawings]

FIG. 1 is a side view showing a wave breaking device A according to the present invention, and FIGS.
FIG. b is a side view for explaining the wave breaking operation of the wave breaking device A,
FIG. 3 is a schematic conceptual diagram showing a mechanism for canceling an incident wave and a transmitted wave by a radiation wave generated by the wave canceling device A,
FIGS. 4a and 4b are side views showing another embodiment of the wave breaking device A, FIGS. 5a and 5b are side views showing another wave breaking device B according to the present invention, and FIGS. 6a and 6b are the present invention. Still another wave canceller C according to
FIG. 7 is a side view showing a conventional wave canceller D. 1 ... Pontoon, 2 ... Opening part, 3 ... Hinge structure part, 4 ... Spring device, 5 ... Pile (support part).

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masakazu Oki 2-5-8 Kita-Aoyama, Minato-ku, Tokyo Intra-company group (72) Inventor Takeshi Ijima 979 Imaki, Amajuku, Nishi-ku, Fukuoka (72) Invention Katsuhiko Kurata 4-1-1, Koraibashi, Higashi-ku, Osaka, Osaka Prefecture Toyo Construction Co., Ltd. (72) Inventor Hisatoshi Michibata 2--23-18 Shimomeguro, Meguro-ku, Tokyo Within Wakatsuki Construction Co., Ltd. (56) References JP-A 2-167910 (JP, A) JP 61-19763 (JP, B2) JP 53-44277 (JP, Y2)

Claims (4)

[Claims] 1. A pontoon that is arranged below the water surface and has impermeable or plural openings, a support portion that supports and fixes the pontoon to the seabed, and a pontoon that is interposed between the pontoon and the support portion, A wave canceling device comprising a hinge portion for rotating the pontoon with respect to the support portion in response to vertical movement, and spring means for returning the pontoon to a fixed position. 2. The wave canceller according to claim 1, wherein the hinge portion is provided at one end of the pontoon, and the spring means is provided at the other end. 3. A support portion is provided at the center of the pontoon via the hinge portion, and the support portion is provided at the front end portion and the rear end portion of the pontoon with respect to the traveling direction of the incident wave via the spring means. The wave canceling device according to claim 1, further comprising: 4. The pontoon is provided with a center folding mechanism that divides the front portion and the rear portion into two in the traveling direction of the incident wave, and the front end portion and the rear end portion are respectively provided with the support portion via the hinge portion. The wave-dissipating device according to claim 1, wherein the spring means for connecting the front part and the rear part is provided together with the provision of the above-mentioned.