KR102227895B1 - Manufacture Method of Tetrapod with Reinforced Structure - Google Patents

Abstract

The present invention relates to a method for manufacturing a tetrapod to which a reinforcement structure is applied. The method comprises: a reinforcement structure assembly step of forming a reinforcement structure by connecting one end of a connecting member to a first connecting hole of a central structure forming a hollow structure where a plurality of placement holes are formed; a mold connecting step of forming a mold by disposing and fixing a second mold in a structure protruding portion of the reinforcement structure and then connecting a first mold to the second mold, the second mold having the same shape as a branch portion end and a branch portion side portion of the tetrapod and having an end wall where at least one second connecting hole is formed and the first mold having an inner shape formed so as to be identical to the shape of the central portion of the tetrapod; a concrete placement step of injecting concrete into the mold; and a mold separation step of separating the mold from the cured tetrapod.

Description

Manufacturing Method of Tetrapod with Reinforced Structure

The present invention relates to a tetrapod installed on the coast to attenuate wave energy, and more specifically, a reinforcing structure is formed by connecting one end of the connecting member with the first connecting hole of the central structure forming a hollow structure in which a plurality of pouring holes are formed. In the process of assembling the reinforcing structure, the second formwork having the same shape as the end of the branch part and the side part of the branch part of the tetrapod and having at least one second connecting hole formed on the end wall is placed and fixed to the protruding part of the reinforcing structure, respectively, and the internal shape is changed. It consists of a formwork connection process that forms a formwork by connecting the first formwork, which is formed identically to the central part of the tetrapod, to form a formwork, a concrete pouring process in which concrete is injected into the formwork, and a formwork separation process that separates the formwork from the cured tetrapod. It relates to a method for producing a tetrapod to which a reinforcing structure is applied.

In general, sofa blocks are installed to reduce wave energy in coastal areas where large waves are generated, such as breakwaters and shores, and sofa blocks reduce manufacturing costs and prevent corrosion by salt contained in seawater. To do this, it is mainly made of concrete.

The sofa block is formed in a tetrapod shape in which four branches protrude in the direction of each corner of the tetrapod, and a passage is formed between the protruding branches of each tetrapod, thereby improving permeability. It has the advantage of reducing the occurrence of climbs and reflected waves, and allowing the construction on unstable ground such as slopes while interlocking of the tetrapods occurs.

However, in order to prevent loss due to wave energy, the characteristics of tetrapods made of heavy bodies are produced directly by pouring concrete inside the formwork at the construction site. Breakage is likely to occur at the contact part between the branches of the tetrapod.

When concrete is poured onto the surface of the damaged area after curing for repair of the damaged area of tetrapod concrete, the adhesion of the concrete decreases, and the repaired concrete easily falls, greatly reducing the durability of the tetrapod, and the removed concrete prevents contamination of the surrounding marine environment. Therefore, damaged tetrapods are recovered and discarded, and new tetrapods are installed.

In order to solve this problem, Korean Patent Registration No. 10-1559452 (registered on Oct. 5, 2015), by mounting a plurality of connecting rods outside the center body of the tetrapod, and forming an insertion passage through which the connecting rods penetrate inside the branch of the tetrapod. , When the tetrapod's branch is damaged, only the branch is replaced, and when the branch is displaced within a predetermined range when an external force is applied by wave energy, an assembled sofa block is proposed that can absorb impact energy.

However, the assembly-type sofa block has a complicated structure and manufacturing process for forming a hinge to which the coupling rod is connected to the center body, so manufacturing cost and construction delay may occur, and the rigidity is relatively lowered at the hinge connection, and the hinge and the coupling rod Since the connection portion is exposed to seawater and is easily corroded, durability is deteriorated and breakage is likely to occur.

In particular, if the hinge or the coupling rod connected to the center body is corroded or damaged, it cannot be repaired by replacing only the branches.Therefore, the amount of additional cost and construction waste increases while recovering and discarding the damaged tetrapod while replacing the entire tetrapod. Had.

Korean Registered Register Patent Publication No. 10-1559452 (registered on October 5, 2015)

An object of the present invention is to provide a method for manufacturing a tetrapod to which a reinforcing structure is applied to prevent breakage at a branch connection part, which is a weak part of a tetrapod, or a contact part between neighboring tetrapod branches when a strong wave occurs.

In an embodiment of the present invention, it is an object of the present invention to provide a method for manufacturing a tetrapod to which a reinforcing structure is applied that can easily repair damaged parts of a tetrapod that are made of a concrete weight and are difficult to recover and repair when damage occurs.

In an embodiment of the present invention, a method for manufacturing a tetrapod is provided to which a reinforcing structure is applied to facilitate the repair of the damaged part of the tetrapod, to reduce the cost incurred during recovery and disposal of the damaged tetrapod, and to prevent environmental pollution due to waste generation. It aims to be.

According to an embodiment of the present invention, a hollow structure is formed in which a plurality of pouring holes are formed, and the structure protrusions are formed in the same number and direction as the protruding branches of the tetrapod on the outer surface, and at least one first connecting hole formed on the end surface of the protrusion of the structure. A reinforcing structure assembly process of forming a reinforcing structure by connecting one end of a connecting member made of a rod or pipe-shaped member to the first connecting hole of the configured central structure, and having the same shape as the branch end and the side side of the branch of the tetrapod. The second formwork consisting of an end wall and a side wall and having at least one second connecting hole formed on the end wall is disposed on the protrusion of the reinforcing structure, and then the fastening member is bound to the fastening hole through the second connecting hole and connected. A formwork connection process in which a member and a second formwork are fixed to each other, and a formwork is formed by connecting the first formwork, which has the same inner shape as the central part of the tetrapod, and the second formwork, the concrete pouring process in which concrete is injected into the formwork, and curing It consists of a formwork separation process that separates the formwork from the completed tetrapod.

According to an embodiment of the present invention, the end of the connection member inserted into the first connection hole extends in the outer circumferential direction to form a connection hole insertion part, and a space into which the connection hole insertion part is inserted is formed inside the first connection hole, so that concrete pouring In the process, concrete flows into the space between the inside of the first connection hole and the coupling part between the connection hole insertion part.

According to an embodiment of the present invention, a thread is formed on the outer circumferential surface of the connection hole insertion part, and a thread corresponding to the thread pitch of the connection hole insertion part is formed on the surface of the first connection hole through which the connection member passes.

According to an embodiment of the present invention, after the process of separating the formwork is completed, when a branch part of the manufactured tetrapod is damaged, a second formwork is attached to the damaged branch, and then the fastening hole exposed on the surface of the branch and the second connection hole of the second formwork. After binding through the fastening member, when the concrete pouring and curing are completed, a tetrapod restoration process of separating the second formwork is added.

According to an embodiment of the present invention, an injection hole through which concrete is injected is formed in the second formwork used in the process of restoring the tetrapod.

According to an embodiment of the present invention, the reinforcing structure is made of ferrous metal, waste plastic, or a mixture of these.

According to an embodiment of the present invention, by increasing the rigidity of the tetrapod through the reinforcing structure inserted therein, there is an effect of preventing the occurrence of damage to the tetrapod.

According to an embodiment of the present invention, when concrete is poured for the production of tetrapod, the concrete is filled inside the central structure through the pouring hole formed in the central structure of the reinforcing structure, and the concrete is integrated with the inside and outside of the reinforcing structure. There is an effect that can improve the strength of.

According to an embodiment of the present invention, a tetrapod is manufactured by connecting and fixing a formwork to a reinforcing structure that forms the frame of the tetrapod, thereby preventing the strength of a specific part of the tetrapod from deteriorating as the reinforcing structure is eccentrically disposed in the process of assembling the formwork or concrete pouring. There is an effect.

According to an embodiment of the present invention, by forming a space in the coupling part between the central structure and the connection member constituting the reinforcing structure, the damage of concrete on the surface of the tetrapod branch part due to the eccentric arrangement of the connection member by adjusting the coupling angle of the connection member There is an effect of preventing and improving the strength of the tetrapod manufactured through the concrete filled with the joint space.

According to an embodiment of the present invention, the fastening hole formed at the end of the connecting member is exposed from the end surface of the branch part of the manufactured tetrapod, so that when the end of the branch part of the tetrapod is damaged, the formwork is connected through the fastening hole and the damaged part by concrete injection. There is an effect that can facilitate maintenance.

According to an embodiment of the present invention, by forming a reinforcing structure made of ferrous metal and waste plastic, there is an effect of securing durability and strength while reducing weight, lowering manufacturing cost through recycled materials, and preventing environmental pollution. have.

1 is a view showing a structure of a reinforcing structure according to an embodiment of the present invention and an arrangement relationship in a state inserted into a tetrapod.
2 is a view showing a connection structure of a coupling part between a central structure and a connection member of a reinforcing structure according to an embodiment of the present invention.
3 is a view showing a connection process between a reinforcing structure and a formwork according to an embodiment of the present invention.
4 is a view showing a process of separating a formwork from a tetrapod manufactured after curing concrete according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It will be described in detail focusing on the parts necessary to understand the operation and operation according to the present invention.

While describing the embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted.

This is to more clearly convey the gist of the present invention by omitting unnecessary description.

In addition, in describing the constituent elements of the present invention, different reference numerals may be assigned to constituent elements of the same name according to the drawings, and the same reference numerals may be denoted even in different drawings.

However, even in such a case, it does not mean that the corresponding component has different functions according to the embodiment, or that it has the same function in different embodiments, and the function of each component is the corresponding embodiment. It should be judged based on the description of each component in.

In addition, technical terms used in the present specification should be interpreted as generally understood by those of ordinary skill in the technical field to which the present invention pertains, unless otherwise defined in this specification. It should not be construed as a meaning or an excessively reduced meaning.

In addition, the singular expression used in the present specification includes a plurality of expressions unless the context indicates otherwise.

In the present application, terms such as “consisting of” or “comprising” should not be construed as necessarily including all of the various elements or various steps described in the specification, and some of the elements or some steps It may not be included, or it should be interpreted that it may further include additional components or steps.

The reinforcing structure 10 of the tetrapod 1 applied to the method of manufacturing a tetrapod to which the reinforcing structure according to an embodiment of the present invention is applied is connected to the outer surface of the central structure 100 and the central structure 100 as shown in FIG. It is composed of a connecting member 200 that is, and is inserted into the inner center of the tetrapod 1 made of a concrete material to form a frame of the tetrapod 1.

The central structure 100 forms a hollow structure in which a plurality of pouring holes 120 are formed on the surface, and the structure protrusions 110 in the same number and direction as the protruding branches 2 of the tetrapod 1 are formed on the outer surface. The tetrapod (1) is a position corresponding to each corner of the tetrahedron, and since it is common that the four branches (2) protrude respectively, the structure protrusions 110 are also four protrusions to face each corner of the tetrahedron. Is formed, and when the number and position of the branch portions 2 of the tetrapod 1 are formed differently, the number and position of the structure protrusions 110 may also be formed differently.

At least one first connection hole 111 is formed on the end surface of each structure protrusion 110, and one end of the connection member 200 made of a rod or pipe-shaped member is connected to each first connection hole 111 .

One end of the connection member 200 inserted into the first connection hole 111 is expanded in the outer circumferential direction as shown in FIG. 2 to form a connection hole insertion part 210, and the inside of the first connection hole 111 A space into which the connection hole insertion part 210 is inserted is formed, and when the structure protrusion 110 and the connection member 200 are connected, the inside of the first connection hole 111 and the coupling part between the connection hole insertion part 210 A gap is formed in the.

At this time, a thread is formed on the outer circumferential surface of the connection hole insertion part 210, and the first connection hole 111 through which the connection member 200 passes is corresponding to the thread pitch of the connection hole insertion part 210. A thread can be formed.

A fastening hole 220 through which a fastening member can be fastened is formed at the other end of the connecting member 200 connected to the first connecting hole 111, and when the fastening member is made of a bolt, the fastening hole 220 ) A thread corresponding to the thread pitch of the bolt is formed on the inner side.

As shown in FIG. 3, the form 300 serving as the curing form of the tetrapod 1 manufactured by pouring concrete is composed of a first form 310 and a second form 320, the first form 310 ) Has the same inner shape as the central portion of the tetrapod (1), a passage through which each branch portion 2 is exposed is formed, and the passage of each branch portion (2) formed in the first formwork 310 has a tetrapod (1). ), the second formwork 320 having the same inner shape as the outer shape of the branch part 2 is detachably connected, and the first formwork 310 is composed of two or more members to be detachable after manufacturing the tetrapod 1 It is desirable to be.

The second formwork 320 is formed in an empty truncated cone shape consisting of an end wall 321 and a side wall 323 having the same shape as the outer shape of the end and side surfaces of the branch portion 2 of the tetrapod 1, Second connection holes 322 are formed in 321 to correspond to the number and position of the fastening holes 220 formed at the other end of each connection member 200.

A method of manufacturing a tetrapod to which a reinforcing structure is applied using the reinforcing structure 10 configured as above will be described as follows.

In the process of assembling the reinforcing structure 10, the reinforcing structure 10 is formed by connecting one end of the connecting member 200 to each of the first connecting holes 111 formed in the protruding portion 110 of the structure of the central structure 100. , The reinforcing structure 10 may be made of a ferrous metal material or recycled waste plastic material, or may be configured such that ferrous metal and recycled waste plastic material are mixed, and a ferrous metal material in the part where the load of the tetrapod 1 acts. It is composed of, and by configuring the parts other than the recycled waste plastic material, it is possible to achieve weight reduction while improving durability and rigidity of the manufactured tetrapod (1).

In the process of connecting the formwork 300, the second connection hole 322 formed in the end wall 321 of the second formwork 320 in the fastening hole 220 formed at the end of the connecting member 200 of the assembled reinforcing structure 10 These are arranged to face each other, and the fastening member is bound to the fastening hole 220 through the second connection hole 322 to fix the reinforcing structure 10 and the second formwork 320 to each other.

At this time, when the connection and fixing of the second formwork 320 to the other end of the connection member 200 connected to each structure protrusion 110 of the reinforcement structure 10 is completed, the first formwork 310 divided into two or more. ) Is connected to the second formwork 320 to form the formwork 300, and the second formwork 320 is rigidly fixed to the connection member 200 through a fastening member, so that a smooth connection of the formwork 300 is achieved. For this purpose, after fixing each second formwork 320 to the reinforcing structure 10 through a fastening member, it is preferable to connect the first formwork 310 to the second formwork 320.

In addition, when the connection hole insertion portion 210 is formed in the connection member 200, a gap space is formed between the inside of the first connection hole 111 and the coupling portion between the connection hole insertion portion 210, and the connection member 200 ) Through the gap formed between the outer diameter of the first connection hole 111 and the inner diameter of the first connection hole 111, the connection angle of the connection member 200 connected to the central structure 100 through the first connection hole 111 can be adjusted. By adjusting the position of the second formwork 320 through the adjustment of the connection angle of the connecting member 200, the connection between the first formwork 310 and the second formwork 320 may be made more easily.

In addition, a thread having a pitch corresponding to each other may be formed on the outer circumferential surface of the connection hole insertion part 210 and the surface of the first connection hole 111, and the thread is to connect the connection hole insertion part 210 to the first connection hole 111 ) After the connection is completed, the connection hole insertion part 210 and the first connection hole 111 are prevented from being separated from each other in the process of connecting the formwork 300 to the reinforcing structure 10.

In the concrete pouring process, concrete is poured into the mold 300 through an injection hole formed in the mold 300 to be poured, and the injected concrete is filled into the central structure 100 through the pouring hole 120 while being filled into the tetrapod ( By forming the concrete of 1) integral with the inside and outside of the reinforcing structure 10, the strength of the manufactured tetrapod 1 is improved.

In this case, the injection hole may be formed in one of the first and second formwork 310 and 320, or may be formed in both the first and second formwork 310 and 320.

In addition, concrete is filled with a clearance space between the inside of the first connection hole 111 and the coupling part between the connection hole insertion part 210, and the outer circumferential surface of the connection hole insertion part 210 and the first connection hole 111 As concrete is attached to the thread formed on the surface, the bonding force between the central structure 100 and the connecting member 200 is improved.

When the concrete curing of the tetrapod 1 is completed, the manufacturing of the tetrapod 1 is completed by performing the process of separating the formwork 300 as shown in FIG. 4. It is easy to break the end of the part (2).

When the end of the branch (2) of the tetrapod (1) is damaged, the second formwork (320) is connected to the damaged branch (2), and the fastening hole (220) exposed to the end of the branch (2) and After matching the positions of the second connecting holes 322 of the second formwork 320, fixing them with a fastening member, and then injecting concrete into the inlet of the second formwork 320 to repair the damaged part of the tetrapod 1 And, when the concrete curing is completed, a process of restoring the tetrapod 1 separating the second formwork 320 may be added.

At this time, it is preferable to form an injection hole near the boundary between the end wall 321 and the side wall 323 of the second formwork 320 so that the concrete for the maintenance of the tetrapod 1 can be smoothly injected.

Although the embodiments of the present invention have been described with reference to the above contents, those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof.

Therefore, the embodiments described above should be understood as illustrative and non-limiting in all respects, and the scope of the present invention described in the detailed description is indicated by the claims to be described later, and the meaning of the claims and It should be construed that all changes or modifications derived from the scope and equivalent concepts are included in the scope of the present invention.

1: tetrapod 2: branch
10: reinforcement structure 100: central structure
110: structure protrusion 111: first connection hole
120: pouring hole 200: connecting member
210: connection hole insertion part 220: fastening hole
300: formwork 310: first formwork
320: second formwork 321: end wall
322: second connecting hole 323: side wall

Claims (6)

It forms a hollow structure in which a plurality of pouring holes 120 are formed, and the structure protrusions 110 are formed in the same number and direction as the protruding branches 2 of the tetrapod 1 on the outer surface, and the end of the structure protrusion 110 With the first connection hole 111 of the central structure 100 composed of one or more first connection holes 111 formed on the surface, one end of the connection member 200 made of a rod or pipe-shaped member is connected to each other. Reinforcing structure assembly process to form the reinforcing structure 10;
It is composed of an end wall 321 and a side wall 323 to form the same shape as the end of the branch part 2 and the side part of the branch part 2 of the tetrapod 1, and at least one second connection hole ( After disposing the second formwork 320 with 322 formed on each of the protrusions 110 of the reinforcing structure 10, the fastening member is bound to the fastening hole 220 through the second connecting hole 322 and connected. The member 200 and the second formwork 320 are fixed to each other, and the first formwork 310 having the same inner shape as that of the central part of the tetrapod 1 is connected to the second formwork 320 to form the formwork 300. Forming formwork connection process;
Concrete pouring process of injecting concrete into the formwork 300; And
Formwork separation process of separating the formwork 300 from the cured tetrapod 1; Consists of,
The end of the connection member 200 inserted into the first connection hole 111 extends in the outer circumferential direction to form a connection hole insertion part 210, and a connection hole insertion part 210 inside the first connection hole 111 A tetrapod manufacturing method applied with a reinforcing structure, characterized in that a space into which is inserted is formed, and concrete is introduced into the space between the inside of the first connection hole 111 and the coupling part between the connection hole insertion part 210 during the concrete pouring process . delete The method of claim 1,
A thread is formed on the outer circumferential surface of the connection hole insertion part 210, and a thread corresponding to the thread pitch of the connection hole insertion part 210 is formed on the surface of the first connection hole 111 through which the connection member 200 passes. A method for producing a tetrapod to which a reinforcing structure is applied, characterized in that it is formed. It forms a hollow structure in which a plurality of pouring holes 120 are formed, and the structure protrusions 110 are formed in the same number and direction as the protruding branches 2 of the tetrapod 1 on the outer surface, and the end of the structure protrusion 110 With the first connection hole 111 of the central structure 100 composed of one or more first connection holes 111 formed on the surface, one end of the connection member 200 made of a rod or pipe-shaped member is connected to each other. Reinforcing structure assembly process to form the reinforcing structure 10;
It is composed of an end wall 321 and a side wall 323 to form the same shape as the end of the branch part 2 and the side part of the branch part 2 of the tetrapod 1, and at least one second connection hole ( After disposing the second formwork 320 with 322 formed on each of the protrusions 110 of the reinforcing structure 10, the fastening member is bound to the fastening hole 220 through the second connecting hole 322 and connected. The member 200 and the second formwork 320 are fixed to each other, and the first formwork 310 having the same inner shape as that of the central part of the tetrapod 1 is connected to the second formwork 320 to form the formwork 300. Forming formwork connection process;
Concrete pouring process of injecting concrete into the formwork 300; And
Formwork separation process of separating the formwork 300 from the cured tetrapod 1; Consists of,
After completing the process of separating the formwork, when damage occurs on the branch (2) of the manufactured tetrapod (1), after bonding the second formwork (320) to the damaged branch (2), the fastening hole exposed on the surface of the branch (2) (220) and the second connection hole 322 of the second formwork 320 are bonded through a fastening member, and then when concrete pouring and curing are completed, the tetrapod restoration process of separating the second formwork 320 is added. Tetrapod manufacturing method applied with a reinforcing structure characterized in that. The method of claim 4,
A method of manufacturing a tetrapod to which a reinforcing structure is applied, characterized in that an injection hole into which concrete is injected is formed in the second formwork 320 used in the process of restoring the tetrapod. The method of claim 1,
The reinforcing structure 10 is a method of manufacturing a tetrapod to which a reinforcing structure is applied, characterized in that the reinforcing structure is made of ferrous metal or waste plastic, or a mixture thereof.

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