KR20150133392A - Tetrapod Having Device for Decreasing Wave-force - Google Patents

Abstract

The purpose of the present invention is to provide a tetrapod with a wave force decreasing device capable of decreasing a wave force. The tetrapod according to the present invention includes: a central body; multiple legs protruding from the central body in all directions; and multiple wave breaking units separately installed in the multiple legs. The wave breaking unit includes: a joint joined to the leg; and a wave breaking rod which has one end supported by the joint to be able to move and is rocked by waves hitting the legs to whip waves. Each wave breaking rod of the multiple wave breaking units, which are arranged in each front side of the multiple legs, whips waves when waves hit the legs by being rocked in all directions so that the tetrapod is capable of decreasing a wave force by interrupting and breaking waves.

Description

Tetrapod Having Device for Decreasing Wave-force with Wave-

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a tetrapod installed to protect a breakwater or a revetment, and more particularly to a tetrapod having a wave damper capable of attenuating the wave of a wave applied thereto.

A tetrapod is a concrete block with four legs extending from the center to the four sides. It is installed on a breakwater or a shore to prevent damage to the breakwater or shore. Tetrapod is also installed in water and used as an artificial reptile.

Generally, tetrapods are made from concrete to tens of tons to tens of tons in order to prevent wave loss and migration. Tetrapod is basically tetrahedral and has a structure in which four legs extend from the center of the tetrahedron toward each vertex. Tetrapod is a tetrahedron because the center of gravity of the tetrahedron is at the bottom, which is good for safety, and it can maintain the same shape even when the tetrahedron is rolled. When several tetrapods are intertwined, the force of the wave is extinguished or reduced through an empty space between them, so that the slope of a breakwater or a revetment can be protected from a wave when constructing a coastal breakwater or a shore.

Tetrapod has the following advantages and is suitable for protection of breakwaters and so on. First, the outer layer is made of a rough surface, which can reduce the wave pressure, the rise of the wave, and the reflected wave to reduce the wave energy. In addition, it can be installed safely on the slope slope of the steep slope at the time of installation so that an economical cross-section can be obtained. In addition, since the center position is low and stability is good, the weight can be lightened compared to concrete blocks, and construction is very easy.

However, since the conventional tetrapod is installed so as to directly strike the outer surface thereof, it may be damaged by a shock due to a wave for a long period of time, and its function may be deteriorated. In addition, the conventional tetrapod has a surface of a curved surface, and when the wave hits the surface, the wave flows along the surface of the curved surface, so that there is a problem that the function of the original soap is deteriorated.

Registered utility model publication No. 0388821 (2005. 07. 07.) Patent Registration No. 0701461 (Mar. 29, 2007) Patent Registration No. 1125992 (Mar. 20, 2012) Patent Registration No. 1297714 (Feb.

Disclosure of the Invention The present invention has been made in order to solve the above-mentioned needs, and it is an object of the present invention to provide a tetrapod having a wave attenuating mechanism which is installed on the outer surface of a tetrapod and can attenuate the wave of a wave simply by moving in accordance with the flow of the wave, The purpose is to provide.

According to an aspect of the present invention, there is provided a tetrapod comprising: a central body; A plurality of legs projecting from the central body in all directions; And a plurality of shredding units having a joint mechanism coupled to the legs, and a crushing rod having one end movably supported by the joint mechanism so as to shake the waves while swinging in response to the flow of the waves of the legs, ; ≪ / RTI >

The tetrapod according to the present invention interferes with the flow of waves as the crushing rod of each of the plurality of crushing units arranged at the front part of each of the plurality of legs stirs the wave as the wave moves, And the waves are crushed to attenuate the waves. The flaps of each of the plurality of pop-up units disposed at the rear of each of the plurality of legs are automatically heard as the waves pass, thereby increasing the drag force received by the legs and disturbing the flow of waves according to the action- . Therefore, the tetrapod according to the present invention can be applied to a case where a plurality of crushing units and a plurality of pop-up units provided on each of a plurality of legs deforms the flow structure of the wave around the central body and the plurality of legs, Can be attenuated.

Further, the tetrapod according to the present invention reduces the impact of the waves applied to the central body and the plurality of legs by the plurality of shredding units and the plurality of pop-up units, so that the risk of breakage due to the impact of waves is small, long.

1 is a perspective view showing a tetrapod having a wave damper according to an embodiment of the present invention.
Fig. 2 is a perspective view showing a crushing unit of a wave damper provided in the tetrapod shown in Fig. 1. Fig.
Figure 3 is a top view of a portion of the tetrapod shown in Figure 1;
Figure 4 is a top view of a portion of the tetrapod according to one embodiment of the present invention when the waves are imbedded.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a tetrapod having a wave damper according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a tetrapod having a wave damper according to an embodiment of the present invention, FIG. 2 is a perspective view showing a shredding unit of a wave damper provided in the tetrapod shown in FIG. 1, Lt; RTI ID = 0.0 > of tetrapods < / RTI >

1 to 3, the tetrapod 100 according to one embodiment of the present invention includes a central body 110, a plurality of legs 120 protruding from the central body 110 in four directions, And a wave damper 130 installed on the leg 120 of the main body 100. The central body 110 and the plurality of legs 120 may be made of concrete, such as tetrapod, with a weight of several tons to tens of tons, and a structure in which four legs extend from the center of the tetrahedron toward each vertex .

The wave damper 130 includes a plurality of shredding units 140 for attenuating the wave of the wave W by crushing a wave W (see FIG. 4) striking the leg 120, And a plurality of pop-up units 160, which act when the swinging motion of the legs 120 increases to increase the drag force received by the legs 120. The wave damping mechanism 130 deforms the flow structure of the waves W around the central body 110 and the plurality of legs 120 when the waves W hit and applies more force to the waves W. Thereby attenuating the wave power of the wave W. The shredding unit 140 is disposed in a plurality of forward portions of each of the plurality of legs 120 with respect to the direction in which the waves W are struck. And the pop-up unit 160 is disposed at the rear portion of each of the plurality of legs 120 with respect to the direction in which the waves W sweep.

The shredding unit 140 includes a joint mechanism 141 coupled to the leg 120 and a crushing rod 152 movably supported on the joint mechanism 141. The crushing rod 152 swings the wave W while being shaken by the flow of the wave W as the wave W hits the leg 120 while being supported by the joint mechanism 141.

The joint mechanism 141 of the shredding unit 140 includes a fixed shaft 142 fixed to the leg 120, a first connecting member 144 coupled to the fixed shaft 142, a first connecting member 144, And a third linking member 150 rotatably coupled to the second linking member 148. The second linking member 148 is rotatably coupled to the second linking member 148, The fixed shaft 142 may be partly pushed into the leg 120 and pushed into the leg 120 or tightly fixed to the leg 120 through a separate fixing member.

The rotation support portion 143 is provided at one end of the fixed shaft 142 and is inserted into the coupling groove 145 provided in the first connection member 144, do. Therefore, the first connecting member 144 can be rotated with respect to the fixed shaft 142. Here, the shape of the rotation support portion 143 and the shape of the coupling groove 145 may have different shapes.

The first connecting member 144 is provided with a pair of flanges 146 and is coupled to the first pivot shaft 147 on the pair of flanges 146. And the second connecting member 148 is coupled to the first pivot shaft 147 to rotate about the first pivot shaft 147. [ The second connecting member 148 is provided with a second pivot shaft 149 in a direction intersecting the first pivot shaft 147. The third connecting member 150 is provided with a pair of flanges 151 and a second pivot shaft 149 is coupled to the pair of flanges 151 so that the third connecting member 150 is connected to the second pivot shaft 149, respectively. The crushing rod 152 is coupled to the third linking member 150.

In this way, the joint mechanism 141 has a universal joint structure capable of rotating in three axial directions, and the crushing rod 152 has the fixed shaft 142 and the first pivot shaft 147 and the second pivot shaft 149, As shown in Fig. Therefore, when the wave W is applied to the leg 120, the crush rod 152 swings in the three-axis direction in accordance with the flow of the wave W to whirly sweep the wave W to sweep the flow of the wave W And disturb the waves.

1 and 3, the pop-up unit 160 includes a support base 161 fixed to the leg 120, a hinge pin 162 coupled to the support base 161, and a hinge pin 162 And a flap 163 rotatably coupled to the support base 161. The support base 161 is firmly fixed to the leg 120 by a plurality of fixing members 164 such as bolts and pins. A hinge pin 162 is coupled to one side of the support base 161 and a flap 163 is coupled to the hinge pin 162 so as to rotate with respect to the hinge pin 162. The pop-up unit 160 has a hinge structure. When the wave W impinges on the leg 120, the flap 163 rotates with respect to the hinge pin 162 according to the flow of the wave W, 120, and this action increases the drag force received by the legs 120. [0053]

Hereinafter, the action of the tetrapod 100 according to the present embodiment will be described.

The tetrapod 100 according to the present embodiment is installed so as to interlock several to protect the slope of a breakwater or a reef from a wave when constructing a coastal breakwater, a reef, and the like. 3, when the wave W is not struck, the plurality of shredding units 140 maintains the state where the shredding rods 152 are not subjected to external force, and the plurality of pop-up units 160 Remains in a stopped state such that the flap 163 is in contact with the outer surface of the leg 120. [

4, a plurality of shredding units 140 disposed at the front portion of each of the plurality of legs 120 when the waves W sweep are formed such that each of the shredding rods 152 has a wave W The waves W are shaken by the flow of the wave W to disturb the flow of the waves W and crush the waves W to attenuate the waves W. A plurality of pop-up units 160 disposed at the rear of each of the plurality of legs 120 are automatically lifted as the waves W pass through the respective flaps 163 so that the drag force Lt; / RTI > Therefore, the flow of the wave W can be disturbed by the action-reaction rule.

As described above, the tetrapod 100 according to the present embodiment includes a plurality of shredding units 140 installed in each of the plurality of legs 120 and a plurality of pop-up units 160 arranged in the central body 110 and the plurality of legs 120 By applying a greater force to the wave W by modifying the flow structure of the wave W around the wave W. Therefore, it is excellent in the function of a so-called "deterrent" as compared with the conventional tetrapod. By reducing the impact of the wave W applied to the central body 110 and the plurality of legs 120 by the plurality of shredding units 140 and the plurality of pop-up units 160, the wave W ), The life is long.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to the embodiments described above.

For example, the coupling structure of the fixed shaft and the first connection member provided in the shredding unit of the wave damper, the coupling structure of the first coupling member and the second coupling member, the coupling structure of the second coupling member and the third coupling member , The coupling structure of the third linking member and the crushing rod is not limited to that shown and can be variously changed.

Although the shredding unit 140 is illustrated as being supported by the joint mechanism 141 of the universal joint structure capable of rotating in three axial directions with the linear crushing rod 152, But may be variously modified. In other words, the crushing rod can be changed into various other structures in addition to the straight rod structure, and the joint mechanism of the crushing unit can have a universal joint structure other than the universal joint structure capable of rotating in three axial directions, But can be changed into various other structures for supporting the rotation. Further, the number of the shredding units, the arrangement structure, and the installation position of the shredding unit with respect to one leg are not limited to those shown and can be variously changed.

Further, the specific structure of the pop-up unit of the wave-attenuating mechanism can be changed to various other structures than those shown. For example, although one flap 163 is illustrated as being rotatably coupled to a hinge pin 162 coupled to a support base 161, a plurality of flaps 163 are provided for one hinge pin 162 Or may be rotatably coupled. Although two pop-up units 160 on one leg 120 are shown on the back of the legs 120 with respect to the direction in which the waves W hit, The arrangement number, the installation position, and the installation position of the pop-up unit 160 can be variously changed.

100: tetrapod 110: central body
120: Leg 130: Wave attenuator
140: Crushing unit 141: Joint mechanism
142: fixed shaft 143:
144, 148, 150: first, second and third connecting members 145; Joining groove
146, 151: flanges 147, 149: first and second pivot shafts
152: crushing bar 160: pop-up unit
161: support member 162: hinge pin
163: flap

Claims (5)

A central body;
A plurality of legs projecting from the central body in all directions; And
A wave damper having a joint mechanism coupled to the leg and a plurality of shredding units having one end movably supported by the joint mechanism and having a crushing rod swirling along with the flow of the waves hit by the legs; ≪ / RTI > The method according to claim 1,
The joint mechanism of the shredding unit includes:
A fixed shaft fixed to the leg,
A first connecting member coupled to the fixed shaft,
A first pivot shaft coupled to the first linking member,
A second connecting member coupled to the first pivot shaft so as to be rotatable about the first pivot shaft,
A second pivot shaft coupled to the second linking member,
And a third connecting member coupled to the crushing rod and coupled to the second pivot axis to be rotatable about the second pivot axis. 3. The method of claim 2,
And the first connecting member is coupled to the fixed shaft so as to be rotatable with respect to the fixed shaft. The method according to claim 1,
Wherein the wave damper comprises: a support fixed to the leg; a hinge pin coupled to the support; and a hinge pin rotatably coupled to the support through the hinge pin, Further comprising a plurality of pop-up units having rotating flaps. 5. The method of claim 4,
Wherein the plurality of shredding units are disposed in a front portion of the legs with respect to a direction in which waves are struck, and the plurality of pop-up units are disposed at a rear portion of the legs.

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