KR20210055837A - Eco-friendly Artificial fish bank using waste, its a method for producing - Google Patents

Abstract

The present invention relates to an eco-friendly artificial fish bank which does not pollute an aquatic ecosystem while using waste and a manufacturing method thereof. According to the present invention, the eco-friendly artificial bank has a structure in which a frame pipe (110) of a floor structure (100), a column pipe (200), and a connection reinforcement pipe (300) are firmly integrated with each other through a cement mixture filled therein and the frame pipe (110), the column pipe (200), and the connection reinforcement pipe (300) are made of a PE material, thereby providing an effect of allowing a PE pipe artificial bank made of an eco-friendly material to be safely fixed to the seabed by self- weight without a separate fixing means. In addition, while the upper and lower parts of the column pipe (200) are tightly sealed by the cement mixture (A), waste (B) can be safely stored and processed inside the column pipe (200), thereby providing an effect of solving a waste treatment problem. In addition, provided is an effect of enabling all manufacturing operations of interconnecting the PE pipes, filling the cement mixture, filling and sealing the waste, and interconnecting each component to be efficiently and reliably performed.

Description

Eco-friendly Artificial fish bank using waste, its a method for producing}

The present invention relates to an artificial reef installed in the sea to help propagation of marine animals and plants, and a manufacturing method thereof, and in particular, to an eco-friendly artificial reef that does not pollute an aquatic ecosystem while using waste, and a manufacturing method thereof.

Artificial reefs not only create an environment in which algae can attach and reproduce, but are also used as shelters and spawning grounds for various sea creatures, so they are widely used to restore destroyed aquatic ecosystems or to create commercial sea farms.

These artificial reefs have already been developed and applied with various structures according to the purpose of use, but conventional artificial reefs are generally made of iron (Fe) or concrete, which are susceptible to corrosion. The negative view on seconds is expanding. For example, artificial fish reefs made of concrete contaminate the underwater environment due to the chemical composition of the concrete material, and seaweed rust occurs due to bleaching, resulting in a problem of serious ecosystem destruction over time. In addition, artificial reefs made of iron form a sharp structure due to corrosion, tearing the nets of fishing boats, the torn nets entangled in the artificial reefs, and the entangled nets cause fish to be trapped and die, and foreign substances continue to be in the artificial reefs. It is entangled in and wrapped in, resulting in a problem that it loses its function as an artificial reef over time.

In order to solve this conventional problem, artificial reefs made of polyethylene (PE) according to patent registration No. 10-1437895 and patent registration No. 10-1578554 have been developed. As known, PE is excellent in mechanical performance, moisture resistance, moisture resistance, cold resistance, chemical resistance, and electrical insulation, has good moldability, is inexpensive, and, above all, is resistant to corrosion and salt. Therefore, if an artificial reef made of PE is used, the concern of the artificial reef made of concrete or iron as described above is eliminated.

However, such a conventional artificial reef made of PE is not easy to securely fix on the sea floor because its own weight is inevitably light due to the characteristics of the material. In addition, conventional PE-made artificial fish reefs have a structure in which a number of holes for fish to enter are formed in a simple long PE pipe, so when large-sized, large-sized fish can enter and exit freely, so that small fish are free from large-sized fish. Since it is impossible to hide or evacuate, the situation is extremely limited only for specific purposes.

Accordingly, the present invention has been invented to solve the conventional problems as described above, and an object of the present invention is to provide an eco-friendly artificial fish reef that can be safely fixed to the seabed without marine pollution while using waste, and a method for manufacturing the same.

The eco-friendly artificial reef according to the present invention for achieving the above object has at least three or more first insertion ports, and at least one second insertion hole is formed between these first insertion ports, and a frame pipe, and a frame pipe A floor structure made of a reinforcing material for support installed on the inside of the unit; The lower portion of the first communication port formed is inserted and fixed to the first insertion port of the frame pipe, and the upper part is a column pipe which is installed inclined so as to be located at the center upper part of the floor structure; A third insertion hole is formed, a horizontal pipe having both ends fixed to an adjacent column pipe, and a second communication hole formed at the upper and lower portions respectively, the lower portion being inserted and fixed to the second insertion hole of the frame pipe, and the upper portion of the horizontal pipe A connection reinforcing pipe made of a vertical pipe inserted and fixed to the third insertion port; It is composed of a first fixing material that binds the upper part of the column pipes collected in the upper center of the floor structure,

The frame pipe, the column pipe and the connection reinforcement pipe are PE pipes, the inside of the frame pipe and the connection reinforcement pipe is filled with a cement mixture, and the upper and lower parts of the column pipe are tightly sealed through a cement mixture, and the column It has a structure characterized in that the inside of the pipe is filled with waste.

In addition, the method of manufacturing such an eco-friendly artificial reef includes a first step of installing a column pipe and a connection reinforcing pipe on a floor structure made of a frame pipe and a reinforcing material for support; Cement mixture is poured into the rim pipe and cured, the inside of the rim pipe is filled with cement mixture, the lower part of the column pipe inserted into the rim pipe and communicated is sealed with a cement mixture, and the lower part of the vertical pipe constituting the connecting reinforcement pipe Is filled with a cement mixture, so that the frame pipe, the column pipe, and the vertical pipe are firmly bonded to each other; A third step of pouring and curing a cement mixture in the horizontal pipe constituting the connection reinforcing pipe, so that the inside of the horizontal pipe and the vertical pipe is filled with the cement mixture, so that the horizontal pipe and the vertical pipe are firmly bonded to each other; A fourth step of filling waste into the column pipe through the upper opening of the column pipe; A fifth step of temporarily sealing waste filled in the column pipe by installing a sealing material in the column pipe through the upper opening of the column pipe; The sixth process of pouring and curing a cement mixture into the upper opening of the column pipe, so that the upper part of the column pipe is sealed with a cement mixture, and binds the upper part of the column pipes collected at the center of the floor structure through a first fixing material. It is a method characterized by consisting of.

According to the present invention, since the frame pipe made of PE material, which is resistant to corrosion and salt, and the column pipe and the connection reinforcing pipe form a structure that is firmly integrated with each other through a cement mixture filled therein, an artificial reef of an eco-friendly material PE pipe is separate. It has the effect of being securely fixed to the sea floor by its own weight even without the fixing means of In addition, in a state where the upper and lower portions of the column pipe are tightly sealed through a cement mixture, the waste can be safely stored and treated in the interior of the column pipe, thereby eliminating the waste treatment problem.

In addition, according to the manufacturing method of the present invention, there is an effect that the entire manufacturing operation of interconnecting PE pipes, filling a cement mixture, filling and sealing waste, and coupling each component to each other is efficiently and reliably performed. have.

1 is a perspective view showing an artificial reef according to the present invention,
Figure 2 is a plan view of the floor structure shown in Figure 1,
Figure 3 is a view showing the column pipe shown in Figure 1,
Figure 4 is an exploded view of the main part showing the connection reinforcement pipe shown in Figure 1,
5 is a view showing the first fixing member shown in FIG. 1;
6 to 11 are views for explaining a method of manufacturing an artificial reef according to the present invention,
12 is a view for explaining the state of use of the artificial reef according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

According to the embodiment shown in FIG. 1, the eco-friendly artificial reef according to the present invention is composed of a floor structure 100 and a column pipe 200, a connection reinforcement pipe 300, and a first fixing member 400.

The floor structure 100, as shown in Figs. 1 and 2, is made of a rectangular frame pipe 110 and a support reinforcement 120 installed on the inside of the frame pipe 110. The rim pipe 110 has four'L'-shaped PE pipes 111 having a first insertion hole 111a and four'-'-shaped PE pipes 112 having a second insertion hole 112a in communication with each other. It is connected so as to be, four'L'-shaped PE pipes 111 are arranged at the corners, and four'-'-shaped PE pipes 112 are connected in series to these between the'L'-shaped PE pipes 111 . In the case of this embodiment, a steel wire or H-beam is applied as the reinforcing member 120 for the support, but any one that can safely support and support a payload such as a stone (D), which will be described later, may be applied if necessary. Do.

For the column pipe 200, a'-'-shaped PE pipe having a first communication port 200a formed at the lower portion thereof is applied. The lower part of the column pipe 200 is inserted and fixed to the first insertion hole 111a of the frame pipe 110, and the upper part is installed to be inclined so as to be located at the center upper part of the floor structure 100. The first communication port 200a is inserted into the inside of the frame tube 110 while the lower part of the column tube 200 is inserted into the first insertion port 111a of the frame tube 110, and thus the frame tube 110 It communicates with the inside of.

The connection reinforcement pipe 300 is composed of one horizontal pipe 310 and two vertical pipes 320, and these horizontal pipes 310 and vertical pipes 320 are also applied with a'-'-shaped PE pipe. . Both ends of the horizontal tube 310 are fixed to the adjacent column tube 200, respectively, and two third insertion ports 310a are formed between the both ends. The lower portion of the vertical pipe 320 is inserted and fixed to the second insertion opening 112a of the frame pipe 110, and the upper portion of the vertical pipe 320 is inserted and fixed to the third insertion opening 310a of the horizontal pipe 310. , In the upper and lower portions of the vertical pipes 320 are formed with second communication ports 320a, respectively, so that the upper and lower portions of the vertical pipes 320 are respectively inserted into the rim pipes 110 and the horizontal pipes 310, The inside of (110, 310) and the upper and lower second communication ports (320a) of the vertical tube (320) communicate with each other individually.

The first fixing member 400 is made of a metal material having an anchor-shaped insertion fixing portion 400a, but the present invention is not limited thereto, and the column pipes 200 collected in the upper center of the floor structure 100 are Any known things that can bind the upper part are all applicable.

On the other hand, the eco-friendly artificial reef according to the present invention, as shown in Figure 11, the inside of the frame pipe 110 and the connection reinforcing pipe 300 is filled with a cement mixture (A) such as mortar or concrete, and the pillar In a state in which the upper and lower portions of the pipe 200 are tightly sealed through the cement mixture (A), the inside of the column pipe 200 is filled with waste (B).

In the eco-friendly artificial reef according to the present invention, since the rim pipe 110, the column pipe 200 and the connection reinforcing pipe 300 are made of PE, there is a fear of destruction of the marine ecosystem due to the discharge of marine pollutants. It is resolved. In addition, since the frame pipe 110, the column pipe 200, and the connection reinforcing pipe 300 form a structure that is rigidly integrated with each other through the cement mixture (A) filled therein, the position of the artificial reef by ocean currents Movement or damage is prevented, and the column pipe 200 filled with waste (B) is safely and firmly supported by the frame pipe 110 and the connection reinforcing pipe 300, and waste due to the damage of the column pipe 200 The outflow of (B) is effectively prevented. In addition, the eco-friendly artificial reef according to the present invention has an accommodation space formed inside the artificial reef, as shown in FIG. 1, so that when the stone material D is contained in the accommodation space, as shown in FIG. The reinforcing material 120 for support of the structure 100 supports the load of the stone material D, and the frame tube 110 and the column tube 200 and the connection reinforcement tube 300 are formed from the stone material outside the artificial reef. It acts as a fence so that it does not deviate from the road. When the stone (D) is placed inside the artificial reef as described above, the artificial reef is more stably fixed to the seabed by the load of the stone (D), and the marine ecosystem environment can be expected to be created naturally like the natural environment. Meanwhile, as shown in FIG. 1, by reinforcing and installing a second fixing body 130 to prevent movement of the floor structure 100 on the rim pipe 110, it is possible to increase the fixability of the artificial reef.

Hereinafter, a method of manufacturing an eco-friendly artificial reef according to an embodiment of the present invention will be described in accordance with a process sequence as follows.

⊙ First step: installing the column pipe 200 and the connection reinforcing pipe 300 on the floor structure 100 made of the frame pipe 110 and the reinforcing material 120 for support (see Fig. 6).

First, a floor structure 100 is made by installing a reinforcing material 120 for support on the rim pipe 110. Thereafter, the lower part of the column pipe 200 is inserted into the first insertion hole 111a of the frame pipe 110 to be fixed, and then the column pipe 200 is tilted so that the upper part of each of the column pipes 200 becomes a bottom structure ( Install it temporarily so that it is located at the top of the center of 100). In this state, the lower portion of the vertical pipe 320 is inserted into the first insertion opening 112a of the frame pipe 110 and fixed, and then the upper portion of the vertical pipe 320 is inserted into the third insertion opening 310a of the horizontal pipe 310. Both ends of the horizontal pipe 310 are fixed to the adjacent column pipe 200 in a state in which they are inserted. In the case of this embodiment, the tip of the horizontal pipe 310 is fused and fixed to the circumferential surface of the column pipe 200, but if necessary, it is attached using an adhesive or fixed through a separate fixing member (not shown). Of course you can.

⊙ 2nd process: By pouring and curing the cement mixture (A) in the rim pipe 110, the inside of the rim pipe 110 is filled with the cement mixture (A), inserted into the rim pipe 110 and communicated with the pillar The lower part of the pipe 200 is sealed with a cement mixture (A), and the lower part of the vertical pipe 320 constituting the connection reinforcing pipe 300 is filled with a cement mixture (A), and the frame pipe 110 and the column pipe (200) and the vertical tube 320 to be rigidly coupled to each other (see Fig. 7).

When the assembly of the first step is completed, the cement mixture (A) is poured and cured through an injection hole (not shown) formed in the rim pipe 110, and the cement mixture (A) is poured into the rim pipe 110 through an injection hole. At the bottom, the cement mixture (A) poured into the frame pipe 110 passes through the first communication port 200a of the column tube 200 and the lower second communication port 320a of the vertical tube 320 200 and the vertical pipe 320 is introduced into the interior, the cement mixture (A) is filled in the lower portion of the column pipe 200 and the lower portion of the vertical pipe (320). Here, the position and number of the injection holes may be appropriately changed as necessary, and a separate discharge hole (not shown) is formed in the rim pipe 110 so that the cement mixture A is placed more quickly and smoothly, It can be made surely without forming pores.

⊙ 3rd process: Cement mixture (A) is poured and cured in the horizontal pipe 310 constituting the connection reinforcing pipe 300, and the inside of the horizontal pipe 310 and the vertical pipe 320 is made of a cement mixture (A). Filled with, the horizontal tube 310 and the vertical tube 320 to be firmly coupled to each other (see Fig. 8).

When the cement mixture A poured into the rim pipe 110 is completely cured, the cement mixture A is poured through an injection hole (not shown) formed in the horizontal pipe 310, and the inside of the horizontal pipe 310 The cement mixture A is poured into the vertical pipe 320 through the upper second communication port 320a of the vertical pipe 320, so that the inside of the horizontal pipe 310 and the vertical pipe 320 is cemented. It is charged with mixture (A). Here, the location and number of the injection holes may also be appropriately changed as needed, and a separate discharge hole (not shown) is formed in the horizontal pipe 320 so that the cement mixture A is placed more quickly and smoothly, It can be made surely without forming pores.

⊙ 4th process: the step of filling the waste (B) into the interior of the column pipe 200 through the upper opening of the column pipe 200 (see Fig. 9).

The waste (B) can be sealed in any of solid wastes such as construction waste materials and household wastes, and liquid wastes such as waste oil and contaminated water.

⊙ 5th process: the step of temporarily sealing the waste material (B) filled in the column pipe 200 by installing a sealing material (C) inside the column pipe 200 through the upper opening of the column pipe 200 ( See Fig. 10).

In the case of this embodiment, a member in the form of a plate is attached and fixed to the inner surface of the column pipe 200 in an adhesive or fusion method, or a foam member is foamed and cured to the upper opening surface of the column pipe 200 as a sealing material (C). Applied. However, the sealing material (C) according to the present invention is not limited to this embodiment, while temporarily sealing the waste (B), when the cement mixture (A) poured into the upper opening of the column pipe 200 is cured Until now, all known things that can support the load of the cement mixture (A) are applicable.

⊙ 6th process: Cement mixture (A) is poured and cured into the upper opening surface of the column pipe 200 so that the upper part of the column pipe 200 is sealed with the cement mixture (A), and The step of binding the upper portions of the column pipes 200 collected to the upper center of the center through the first fixing member 400 (see FIG. 11).

In this embodiment, in the state where the cement mixture (A) is poured into the upper opening surface of the column pipe 200, the insertion fixing portion 400a of the first fixing member 400 is the upper opening surface of the column pipe 200 After placing the first fixing material 400 on the upper surface of the column pipe 200 to be inserted into the cement mixture (A) poured up to, if the cement mixture (A) is cured, the upper part of the column pipes 200 It is firmly bound through the first fixing member 400.

It goes without saying that the present invention is not limited to the above-described embodiments, and may be variously modified as necessary.

As an example, in the case of the present embodiment, the rim tube 110 is formed to have a quadrangular rim shape, but the rim tube 110 according to the present invention is not limited to a specific shape, and may be a triangular, pentagonal, or circular shape. Various modifications may be made, and the number of column pipes 200 may be appropriately changed accordingly. However, in order for the artificial fish reef according to the present invention to form a three-dimensional shape, three or more first insertion ports 111a into which the column tube 200 and the column tube 200 are inserted must be provided.

In addition, in the case of the present embodiment, two vertical pipes 320 are applied, but one or three or more may be applied as necessary. In this case, the second insertion hole 112a of the frame pipe 110 and the horizontal The number of third insertion ports 310a of the tube 310 should also be changed to correspond to the number of vertical tubes 320. In addition, unlike the present embodiment in which one horizontal pipe 310 is also applied, two or more horizontal pipes may be applied with different heights as needed. In this case, a plurality of horizontal pipes forming a layer are used as a medium through the vertical pipe. Of course, it can be made to be interconnected.

In addition, in the case of the present embodiment, when viewed from the front, the horizontal pipe 310 is arranged to be horizontal and the vertical pipe 320 is maintained vertically, but if necessary, the horizontal pipe 310 or the vertical pipe ( It goes without saying that 320) can be arranged to be inclined at a predetermined angle.

100; Floor structure, 110; Border Tube,
111; 'L'-shaped PE pipe, 111a; 1st inlet,
112; 'ㅡ' shaped PE pipe, 112a; 2nd inlet,
120; Reinforcing material for support, 130; Second fixing material,
200; Column pipe, 200a; 1st communication port,
300; Connection reinforcement pipe 310; Horizontal Pipe,
310a; Third insertion port 320; Vertical Tube,
320a; Second communication port, 400; First fixing material,
400a; Insertion Fixture,
A; Cement mixture, B; waste,
C; Sealing material, D; stone.

Claims (3)

A floor structure comprising a frame pipe having at least three or more first insertion ports and at least one second insertion hole formed between the first insertion ports, and a reinforcing material for support installed inside the frame pipe; The lower portion of the first communication port formed is inserted and fixed to the first insertion port of the frame pipe, the upper part is a column pipe installed inclined so as to be positioned at the center of the floor structure; A third insertion hole is formed, a horizontal pipe having both ends fixed to an adjacent column pipe, and a second communication hole formed at the upper and lower portions respectively, the lower portion being inserted and fixed to the second insertion hole of the frame pipe, and the upper portion of the horizontal pipe A connection reinforcing pipe made of a vertical pipe inserted and fixed to the third insertion port; It is composed of a first fixing material that binds the upper part of the column pipes collected in the upper center of the floor structure,
The frame pipe, the column pipe and the connection reinforcement pipe are PE pipes, the inside of the frame pipe and the connection reinforcement pipe is filled with a cement mixture, and the upper and lower parts of the column pipe are tightly sealed through a cement mixture, and the column An eco-friendly artificial reef using waste, characterized in that the inside of the pipe is filled with waste.
The eco-friendly artificial reef using waste according to claim 1, wherein a second fixture is reinforced in the frame pipe to prevent movement of the floor structure.
A first step of installing a column pipe and a connection reinforcing pipe on a floor structure made of a frame pipe and a reinforcing material for support;
Cement mixture is poured into the rim pipe and cured, the inside of the rim pipe is filled with cement mixture, the lower part of the column pipe inserted into the rim pipe and communicated is sealed with a cement mixture, and the lower part of the vertical pipe constituting the connecting reinforcement pipe Is filled with a cement mixture, so that the frame pipe, the column pipe, and the vertical pipe are firmly bonded to each other;
A third step of pouring and curing a cement mixture in the horizontal pipe constituting the connection reinforcing pipe, so that the inside of the horizontal pipe and the vertical pipe is filled with the cement mixture, so that the horizontal pipe and the vertical pipe are firmly bonded to each other;
A fourth step of filling waste into the column pipe through the upper opening of the column pipe;
A fifth step of temporarily sealing waste filled in the column pipe by installing a sealing material in the column pipe through the upper opening of the column pipe;
The sixth process of pouring and curing a cement mixture into the upper opening of the column pipe, so that the upper part of the column pipe is sealed with a cement mixture, and binds the upper part of the column pipes collected at the center of the floor structure through a first fixing material. Eco-friendly artificial reef manufacturing method using waste, characterized in that consisting of.

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