KR100737251B1 - Tetrapod mounting structure - Google Patents

Abstract

The present invention relates to a tethered tether which has a rigid coupling structure which can firmly fix tetrapods provided on the front surface of a breakwaters through an anchor bolts to maintain the tethered state without being caught by strong water generated by a weather change such as a storm and a typhoon, And more particularly,

According to the present invention,

For tetrapods to reduce the force of the waves to the shore,

A breakwater having a structure of lowered light and having multi-stepped stairs on both sides;

A plurality of anchor bolts having bottom portions embedded at equal intervals on the front surface of the breakwaters and having threaded portions formed at upper ends thereof;

Through holes (131) which are opened upward and downward so as to be inserted into the anchor bolts and stacked in a single row are formed, and a plurality of legs extending in all directions from the center, And

And a nut fastened to the threaded portion of the anchor bolt at an upper portion of the tetrapod located at the uppermost one of the plurality of tetrapods stacked in a row through the anchor bolt to fix the tetrapod stacked in the single row.

 Tetrapods, anchor bolts, nuts, breakwaters

Description

[0001] TETRAPOD MOUNTING STRUCTURE [0002]

1 is a perspective view showing the structure of a conventional tetrapod,

2 is a perspective view showing an installation structure of tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention,

3 is an exploded perspective view showing an installation structure of tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention,

4 is an installation cross-sectional view illustrating an installation structure of tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention.

Description of the Related Art

110: Breakwater 111: Stairs

120: anchor bolt 122: threaded portion

124: fixture 130: tetrapod

131: through hole 133: leg

140: Nut 142: Rubber ring

More particularly, the present invention relates to a method of forming a multi-stepped staircase having a multi-stepped staircase structure with a light-blocking structure on both sides of a breakwater, a plurality of anchor bolts embedded in the stairway, The present invention relates to an installation structure of a tetrapod having a rigid coupling structure capable of maintaining a coupled state without being affected by a strong water generated by a weather change such as a storm and a typhoon.

Generally, tetrapod is a concrete structure used for breakwaters, and it is installed in a part continuously influenced by waves in a breakwaters to protect foundation stone and breakwater blocks thrown under the water which is a component of breakwaters. In other words, if a plurality of tetrapods are installed on the bottom of the breakwater, the force of waves is extinguished through an empty space therebetween to prevent the breakwater from directly coming into contact with the waves. At the same time, .

1 is a perspective view showing a tetrapod installed in a conventional breakwater.

Referring to FIG. 1, the tetrapod 10 is basically a concrete structure constituting a regular tetrahedron, and four legs 20 extend from the center of the tetrahedron toward each corner. At this time, the reason why the tetrapod forms the tetrahedron is that the center of gravity of the tetrahedron is at the lowest position, which is good in safety and maintains the same shape even when the tetrahedron is rolled.

Therefore, the tetrapod 10 manufactured in the above-described manner is installed on the front of the waterproof block or the front surface of the waterproofing block to weaken the forces of water and waves during the waterproofing work, thereby protecting the waterproof block and the breakwater do.

However, such conventional tetrapod has the following problems in actual use.

That is, although the tetrapod is manufactured to withstand the forces of water and waves by its own weight, the tetrapod is swept away by the rapids and waves when the power of the water and the waves increases due to a weather change such as a storm and a typhoon, , Colliding with other structures in the moving process, causing various safety accidents.

In addition, the tetrapod has a problem of hindering the surrounding environment because it takes the form of being stacked on the front surface of the breakwater without a certain structural form at the time of installation.

The object of the present invention is to solve the problem of the conventional tetrapods. The object of the present invention is to provide a multi-stepped staircase having a structure in which the bottom surface of the breakwater has a superimposed light structure and a plurality of anchor bolts are embedded in each of the stairways, The present invention provides a mounting structure of a tetrapod having a rigid coupling structure that can maintain its coupled state without being affected by a strong water generated by a weather change such as a storm and a typhoon by fixing the tetrapod.

Another object of the present invention is to provide an installation structure of a tetrapod having a rigid coupling structure which can improve the surrounding environment even after installation by providing the tetrapod provided on the front surface of the breakwater so as to have a constantly shaped structure.

According to an aspect of the present invention,

For tetrapods to reduce the force of the waves to the shore,

A breakwater having a structure of lowered light and having multi-stepped stairs on both sides;

A plurality of anchor bolts having bottom portions embedded at equal intervals on the front surface of the breakwaters and having threaded portions formed at upper ends thereof;

A plurality of legs integrally formed at one side of the anchor bolt and extending in all directions at a predetermined angle from the center of the anchor bolt,

And a nut fastened to the threaded portion of the anchor bolt at an upper portion of the tetrapod located at the uppermost one of the plurality of tetrapods stacked in a row through the anchor bolt to fix the tetrapod stacked in the single row.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an installation structure of a tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view illustrating an installation structure of a tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention, and FIG. 3 is an exploded perspective view illustrating a structure of a tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention .

2 and 3, the installation structure 100 of the tetrapod having the rigid coupling structure includes the breakwater 110, the anchor bolt 120, the tetrapod 130, and the nut 140.

The breakwater 110 is a concrete structure installed along the shoreline to prevent waves from reaching the ground, and has a staggered lower light structure, and multi-stepped stairs 111 are integrally formed on both sides.

The lower portion of the anchor bolt 120 is embedded in the front step portion 111 of the breakwater 110 and the screw portion 122 is integrally formed thereon. At this time, a plurality of anchor bolts 120 are embedded at equal intervals in each step 111, and a box-shaped fastener 124 is integrally formed under the anchor bolts 120 to enhance a coupling force with the breakwater 110.

The through hole 131 is formed in the inner side of the anchor bolt 120 so as to be inserted into the anchor bolt 120. The through hole 131 has a plurality of Legs 133 are integrally formed.

At this time, it is preferable that the plurality of legs 133 have the same height up / down so that the tetrapods 130 can be stacked on each other.

A nut 140 is fastened to the threaded portion 122 of the anchor bolt 120 protruded upward through the through hole 131 of the stacked tetrapod 130 so as to firmly fix the stacked tetrapod 130 .

It is preferable that a rubber ring 142 is provided between the nut 140 and the tetrapod 130 to increase the adhesion between the nut 140 and the tetrapod 130.

Therefore, the installation structure of the tetrapod having a rigid coupling structure according to the preferred embodiment of the present invention having the above-described coupling structure is formed by providing a tetrapod for reducing the force of the waves installed on the front surface of the breakwater, And thus, it is prevented from being influenced by the strong water generated by the weather changes such as storms and typhoons. The following is a description of the use relationship and the interaction therebetween as follows.

4 is an installation cross-sectional view showing an installation structure of a tetrapod having a rigid coupling structure according to a preferred embodiment of the present invention.

First, in order to install the tetrapod 130, a plurality of anchor bolts 120 are embedded in each step 111 of the breakwater 110 so as to have an equal distance. At this time, a fastener 124 is formed at a lower portion of the embedded anchor bolt 120 to maintain a more firm coupling force between the anchor bolt 120 and the breakwater 110.

Thereafter, the anchor bolts 120 are inserted into the through holes 131 of the tetrahedrons 130 so that the tetrahedrons 130 are stacked one on top of the other, so that the tetrahedrons 130 located at the uppermost one of the stacked tetrahedrons 130 The rubber ring 142 is inserted into the threaded portion 122 of the anchor bolt 120 passing through the through hole 131 of the anchor bolt 130.

At this time, the tetrapods 130 of the present invention are stacked in two stages, but they may take a higher multi-stage shape according to the embodiment.

The nut 140 is fastened to the threaded portion 122 into which the rubber ring 142 is inserted so that the mounting structure of the tetrapod 130 installed on the front surface of the breakwater 110 can achieve a rigid coupling structure .

According to the present invention, a multi-stepped staircase having a structure of coincidental light is formed on both sides of a breakwater, a plurality of anchor bolts are embedded in each of the staircases, and the anchor bolt is fixed to the anchor bolt, It is possible to maintain a firm bonding state without the tetrapod being swept by the strong water generated by the two sides.

Further, since the tetrapod provided on the front surface of the breakwaters is provided so as to have a constantly shaped structure, there is an effect that the surrounding environment can be improved even after the construction.

Claims (2)

For tetrapods installed adjacent to breakwaters to reduce the force of waves impinging on the coast, The breakwater 110 has a structure of a downwardly directed light, a multi-stepped step 111 is formed on both sides thereof, An anchor bolt 120 having a lower portion embedded at equal intervals in front step portions 111 of the breakwater 110 is formed with a plurality of threaded portions 122 at an upper end thereof, The tetrapods 130 inserted into and coupled to the anchor bolts 120 are formed with through holes 131 opened upward and downward so as to be stacked in one row and extend in four directions A plurality of legs 133 are integrally formed, The anchor bolt 120 is fastened to the upper portion of the tetrapod 130 located at the uppermost one of the plurality of tetrapods 130 stacked in one row with the threaded portion 122 of the anchor bolt 120, And a nut (140) for fixing the fixing member (130). delete

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