KR100760950B1 - Coastal structure built of net with tetrapod and fabrication method and constructing method thereof - Google Patents

Abstract

A coastal structure built with a tetrapod net, a fabricating method thereof and a constructing method using the same are provided to improve the binding force and to enhance the economical efficiency by using smaller tetrapods. A coastal structure built comprises a steel net(2) composed of steel wires(4) and piano steel wires(5). The steel net has a predetermined size and formation to receive tetrapods. The steel wires support the weight of the tetrapods stacked on the steel net. The piano steel wires are crossed with the steel wires to enhance the strength of the steel net.

Description

Coastal structure using tetrapod mesh and its construction method and construction method using coastal structure manufactured by this method {Coastal structure built of net with tetrapod and Fabrication method and Constructing method

1 is an exemplary view showing an arrangement of tetrapods which are generally carried out.

Figure 2 is an exemplary configuration showing to explain the framework of the wire mesh being implemented in accordance with the present invention,

3 is a front view illustrating the state in which the tetrapod is loaded on the wire mesh in the coastal structure according to the present invention,

4 is an exemplary view for showing a state in which the tetrapod is loaded on the wire mesh in the coastal structure according to the present invention,

5 is an exemplary view showing a construction state that is carried out by the present invention,

<Description of the code | symbol about the principal part of drawing>

1: tetrapod

2: wire mesh

3: tie cable

4: wire

5: Piano wire

100: coastal structure

The present invention relates to a coastal structure using a tetrapod network, a method of manufacturing the same, and a construction method using the coastal structure produced by the same,

More specifically, a mesh with a triangular cross section is made to fit the exterior of tetrapod, one of the sofa structures, and applied to coastal port construction such as coastal or underwater breakwater to increase the binding force between tetrapods to improve functionality and ease of construction. In addition, the present invention relates to a coastal structure using a tetrapod network to maximize the reliability and satisfaction in construction installation and a method of manufacturing the same, and a construction method using the coastal structure produced through the construction.

Although many coastal structures have been constructed as a countermeasure against natural disasters caused by rising sea levels due to global warming, many problems have arisen regarding the stability and functionality of existing coastal structures.

Therefore, as a way to increase the stability of the existing coastal structure is to install an underwater breakwater in the front of the coastal structure and then break the incident wave to reduce the energy, it is common to increase the stability of the existing coastal structure.

These underwater breakwaters are usually constructed in a planned shape using tetrapods or concrete blocks, and when the underwater breakwaters are constructed using tetrapods, the energy reduction effect of incident waves is made into concrete blocks by breaking waves of incident waves caused by voids between tetrapods. Although it is known to be much larger than that, the binding force of the tetrapods is relatively weak, and there is a problem in that waves having a large crest can be broken and separated.

In addition, in general civil works, gabions are used in various parts (local scour protection, slope stabilization, etc.), but there is a problem that gabions using small sandstones cannot be used because of the large energy from the coast. .

Therefore, due to the above problems, the conventional coastal structures have limitations in their efficiency, such as inability to perform stable construction properly to be prepared for natural disasters. Overall, stability and convenience of construction And there is always a problem that the functionality is degraded.

The present invention has been made to solve the problems of the prior art as described above has the following object.

The present invention is to make a mesh having a triangular cross-section according to the appearance of tetrapod, one of the sofa structures to apply to coastal port construction such as coastal or underwater breakwater to increase the binding force between tetrapods to improve the functionality and ease of construction The purpose of the present invention is to provide a coastal structure using a mesh, a method of manufacturing the same, and a construction method using the produced coastal structure.

Another object of the present invention by using a steel wire and piano wire with a high tensile strength to produce a network having a triangular cross-section that can be used for the construction of tetrapods used in coastal structures construction by using the tetrapod as a filling to bind between the tetrapods due to the network The coastal structure using Tetrapod mesh and its manufacturing method and construction method using the coastal structure made to improve stability and construction convenience and functionality and increase the reliability and satisfaction of construction installation according to the increase To provide.

Hereinafter, the present invention will be described in detail.

In describing the present invention, when it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Terms to be described later are set in consideration of functions in the present invention, which may vary depending on the intention or practice of the experimenter, the user, and the producer, and the definitions should be made based on the contents throughout the present specification.

First, the coastal structure using the tetrapod mesh is carried out by the present invention is composed of a wire mesh having a certain size and shape for loading the tetrapod, the wire mesh and the wire to withstand the weight of the tetrapod loaded In addition, to increase the tensile strength with respect to the wire mesh is composed of a piano steel wire intertwined with the wire, and tie cables are configured at regular intervals to firmly support the tetrapod and the wire mesh.

In addition, the manufacturing method of the coastal structure is carried out in the step of manufacturing a wire mesh with a wire that can withstand a certain weight to load a plurality of tetrapods, and to increase the overall tensile strength of the wire mesh with the piano wire Comprising the step of constructing the steel wire, the step of forming a tie cable at regular intervals in order to firmly support the tetrapod and the wire mesh to the wire mesh, wherein the wire mesh consisting of the wire, piano wire and ticket in the shape having a three-dimensional form Making and forming a wire mesh to be carried out, and loading a plurality of tetrapods in the wire mesh produced as described above, and then the wire mesh is made in a three-dimensional shape and then strongly fixed with a separate tie cable.

And, the construction method using the coastal structure is formed by forming a wire mesh to form a wire mesh consisting of a steel wire, a piano steel wire and a tie cable having a three-dimensional shape, and loaded a plurality of tetrapods in the wire mesh produced above After the wire mesh is formed in a three-dimensional shape, it is firmly fixed with a separate tie cable, and the wire mesh having a three-dimensional shape is loaded on a barge and thrown at the bottom of the slope of the underwater breakwater and the slope-breaking breakwater, but the three-dimensional thrown above. It is to be executed by throwing a plurality of wire mesh having a shape of shape to be stably stacked.

EXAMPLE

With reference to the accompanying drawings, a preferred embodiment for achieving the present invention will be described in detail.

First, the present invention is shown in the accompanying drawings, Figures 2 to 4, Figure 2 is an exemplary view showing to explain the framework of the wire mesh is carried out in accordance with the present invention, Figure 3 is a coastal structure according to the present invention In FIG. 4 is a front view illustrating the state in which the tetrapod is loaded on the wire mesh, Figure 4 shows an exemplary embodiment for showing the state in which the tetrapod is loaded on the wire mesh in the coastal structure according to the present invention.

That is, the coastal structure 100 using the tetrapod mesh according to the present invention is to form a wire mesh (2) having a certain size and shape, which is an iron wire (4) and piano steel wire (5) and tie cable (3) It is composed of.

Thus, the iron wire 4 is preferably made of a material capable of withstanding the weight of the tetrapod (1).

In addition, the piano wire 5 is intertwined with the wire 4, which is to increase the tensile strength with respect to the wire mesh 2 together with the wire 4, and the tie cable 3 is a tetrapod 1. ) And the wire mesh (2) to be firmly configured at regular intervals.

The wire mesh 2 constructed and implemented according to the above has a certain size and shape for loading the tetrapod 1, and when the tetrapod 1 is loaded onto the wire mesh 2, the coastal structure having a three-dimensional shape. It will be made of (100).

Method for manufacturing the coastal structure 100 is carried out as described above first to produce a frame of the wire mesh (2) with a wire (4) that can withstand a certain weight to load a plurality of tetrapods (1) and then the wire mesh ( In order to increase the overall tensile strength in the frame of 2) it is configured by installing a steel wire (5) intertwined with the iron wire (4).

At this time, in order to firmly support the tetrapod (1) and the wire mesh (2) in the frame of the wire mesh (2) by installing the tie cable (3) at regular intervals and have a predetermined size and shape, that is to have a three-dimensional shape To make a wire mesh (2) of the frame so that.

After loading a plurality of tetrapods (1) in the wire mesh (2) of the frame produced in the above and then made the wire mesh (2) in the shape of a three-dimensional shape and then strongly fixed with a separate tie cable (3) coastal structure (100) ) Will be completed.

Construction method using the coastal structure 100 manufactured according to the present invention as described above has a three-dimensional shape of the wire mesh (2) consisting of iron wire (4), piano steel wire (5) and tie cable (3) It is made by forming a frame of the wire mesh (2) to be made.

At this time, if a plurality of tetrapods (1) is loaded on the frame of the wire mesh (2) manufactured in the above and then the frame of the wire mesh (2) is made in a three-dimensional shape and then firmly fixed with a separate tie cable (3) The coastal structure 100 is formed, and the coastal structure 100 is loaded on a barge (not shown) to be thrown at the bottom of the slope of the underwater breakwater and the sandstone breakwater.

It is to be constructed by throwing so that a plurality of wire mesh 2 having a three-dimensional shape thrown in the above to be stacked in a stable stack (see Figure 5 attached).

It is preferable that the coastal structure 100 of the present invention implemented as described above is formed in a triangular solid shape, but the present invention does not limit the shape of the solid shape.

When following this, the wire mesh (2) implemented according to the present invention can be expected to be very high tensile force because the twisted wire wire 4 and the piano steel wire (5) is made, because it uses a wire mesh (2) with high tensile strength The large weight of tetrapods (1) can be used as a filling in the triangular net, thereby increasing the binding force of the tetrapods (1) as a whole and improving the work efficiency, thereby improving the efficiency and functionality of the construction work using the tetrapods (1). In addition, depending on the circumstances of the construction work site, the net can be produced and thrown directly on the barge.

Finally, in the construction and implementation of the coastal structure using the tetrapod network according to the present invention, a method of manufacturing the same, and a construction method using the coastal structure produced through this can be variously modified and can take various forms.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

As described above, in the present invention, when the existing coastal or underwater breakwaters are constructed by simply arranging the respective tetrapods, the binding force is strengthened by the wire mesh by constructing a mesh form using a wire mesh that may have a three-dimensional shape. When the construction using only tetrapod can be used because the tetrapod of a smaller size than the conventional tetrapod used has a more economic effect.

In addition, the present invention shows the effect of throwing several tetrapods at a time by putting in a barge after throwing several tetrapods in a wire mesh, these effects have the effect of improving the economics and efficiency of the coastal structure work.

In addition, the present invention as a whole has improved stability and convenience and functionality of the construction by increasing the binding force between the tetrapods, there is a variety of effects such as maximizing the reliability and satisfaction in the installation installation.

Claims (5)

In coastal structures such as tetrapods, which are installed to prevent rising sea levels as a countermeasure against natural disasters, A wire mesh having a certain size and shape is configured to load the tetrapod, and the wire mesh is made of a wire to withstand the weight of the loaded tetrapod, The wire mesh is a coastal structure using a tetrapod mesh, characterized in that the wire wire and the piano wire which is configured to interlock with the wire to increase the tensile strength of the wire mesh is installed. delete The method of claim 1, The wire mesh has regular intervals to firmly support the tetrapod and the wire mesh. Coastal structure using a tetrapod network characterized in that the tie cable is configured. Manufacturing a wire mesh with a wire that can bear a certain weight to load a plurality of tetrapods; Constructing a piano wire interlaced with the wire in order to increase the overall tensile strength of the wire mesh; Comprising a tie cable at regular intervals to firmly support the tetrapod and the wire mesh in the wire mesh; Manufacturing and forming a wire mesh such that the wire mesh composed of iron wire, piano steel wire, and ties is formed in a shape having a three-dimensional shape; Loading a plurality of tetrapods into the wire mesh fabricated in the above and then making the wire mesh into a three-dimensional shape and strongly fixing it with a separate tie cable; Method for producing a coastal structure using a tetrapod network, characterized in that to run as. A wire mesh made of a wire, a piano steel wire and a tie cable is formed by forming a wire mesh to have a shape having a three-dimensional shape, and after loading a plurality of tetrapods into the wire mesh manufactured above, the wire mesh is formed in a three-dimensional shape and then separately Tie the cable tightly and load the wire mesh having three-dimensional shape on the barge and throw it at the bottom of the slope of the underwater breakwater and the sandstone breakwater. Construction method using a coastal structure using a tetrapod network characterized in that the projected to be carried out so as to stack a plurality of wire mesh having a three-dimensional shape thrown in a stable stack.

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