KR20100133345A - A cellular structure having a function of fishing reef - Google Patents

Abstract

PURPOSE: A cellular structure having a fishing reef function is provided to relieve waves through offsetting using the motion energy of water particles and to preserve seashore sand by efficiently controlling the seawater flow in case of a typhoon. CONSTITUTION: A cellular structure for wave absorption comprises transverse beams(10), longitudinal beams(20), columns(30), and one or more boards(40). The transverse beams, the longitudinal beams, and the columns are arranged at regular intervals and connected together at the right angle to form a rectangular frame. The boards are installed in transverse and longitudinal spans where the transverse beams and the longitudinal beams are intersected in order to absorb waves.

Description

Forced Couch and Sand Sand Resistant Structure with Reef Function {A CELLULAR STRUCTURE HAVING A FUNCTION OF FISHING REEF}

The present invention relates to a movable latent forced sofa structure having a fishery function, and more particularly made of a steel structure made of steel, between the structures are installed in a direction that waves are pushed to have a flat or inclined surface between the structures An underwater submerged sofa structure that absorbs the energy of the founder's motion on the steel structure and the inclined steel plate or returns it in the direction of the wave and strikes it with the next wave's founder's motion to offset the energy and thus couch the wave. will be.

Such a sofa structure effectively controls seawater flow due to waves generated during a typhoon to create a new marine hydrophilic space by preserving a wide and beautiful beach, and serves as a sofa structure and a marine ranch tourism complex. In this way, it will contribute to the increase of fishermen's income by increasing aquaculture and resources.

About 38% of coastal dunes, or sand dunes, in Korea have been severely damaged due to the development of coastal areas and the inflow of population due to the increase in the cost of recreational facilities for installation of artificial structures. Despite this situation, there is currently no practical way to preserve coastal white sand beaches.

Looking at the technology so far, the concept of the breakwater to be built on the surface of the water, or by installing a structure such as tetrapods in the water to create an artificial hill in the water to absorb the reflected wave by reducing the energy of the incident wave to reduce the wave Thus, sofas such as sofas, sofa inner walls, or underwater latent structures have been constructed.

However, such a breakwater, a sofa on the surface of the sleep, a sofa structure such as the latent structure under the sleep has many side effects. First, breakwaters cause serious problems that alter seawater flow and cause coastal erosion. Artificial waters or underwater structures, such as tetrapods, block the flow of seawater, making the beach pockets, and the underwater structures are the seabeds of the beach. Because of the serious side effects of nitrifying and destroying the ecosystem, the breakwaters, tetrapods, and underwater structures mentioned above have all been found to be inadequate for protecting white sand. And once such a sofa is installed, it is almost impossible to recover and only the destruction of the ecosystem proceeds.

Currently, most sofa structures in Korea are made of cement concrete tetrapods from the bottom of the sea floor to the surface of the sea. However, the breakwater cannot be used to preserve white sand at all. We do not use at all for white sand preservation. The mother beach in southern Korea (Songdo Beach in Busan) uses tetrapods in the water and uses them as potential sofa structures. However, the tetrapod sofa structure made of cement is heavier than the space area and cannot be installed in soft soils of low quality, and because it blocks the flow of seawater, the quality of the seabed is nitrified in front of the installed potential structures, and the ecosystem is destroyed. The problem arises.

For this reason, foreign structures using tetrapots are not used in foreign countries.

Accordingly, the present invention has been made in order to solve the above-described problems, by applying a method of plating a sacrificial anode or aluminum to prevent corrosion to the steel structure made of steel, and can absorb the energy of the waves between the structures Attach the steel plates to have a flat or inclined surface and install them in the direction of the wave pushing, so that the energy of the wave maker's movement is absorbed from the steel structure and the flat or inclined steel plate or the wave is returned to the direction of the wave to establish the next wave. It is an object of the present invention to provide a movable latent forced sofa structure having a reef function that can collide with the movement of the chair to offset the energy to sofa the waves.

In addition, the purpose of the present invention is to provide a sofa structure that can efficiently control the seawater flow due to the waves generated during the typhoon to create a new ocean-hydrophilic space by preserving a wide and beautiful beach beach.

In addition, it has the purpose of providing a sofa structure that can contribute to fishermen's income increase by increasing aquaculture and resources by having a role as a sofa structure and at the same time as having a function of artificial reefs, to create a marine ranch tourism complex.

In order to achieve the above object, in the present invention, when constructing a sofa structure, a steel frame structure is constructed by forcing steel beams and stringers and columns of a predetermined length to form steel beams, and the horizontal beams and stringers and columns are fixed. By connecting them at right angles to be spaced apart at intervals, the outer portion of the cuboid frame is provided, and absorbs the energy of the founder's motion of the wave between the cross and the longitudinal cross where the cross beams and the stringers intersect, or collides with the founder's motion of the waves. A forced sofa structure is provided, characterized in that a plurality of plates are provided to offset the energy to sofa the waves.

The steel constituting the cross beams and the column beams and the pillars is preferably subjected to a corrosion prevention treatment to prevent corrosion, and the corrosion prevention treatment may be applied by sacrificial anode method or aluminum plating.

In the present invention, the plate may be installed in a plane with an iron plate having a predetermined width.

In this case, the plate may be installed in a multi-step staircase in a direction in which waves are pushed, and may be installed in a closed type by blocking the whole of one surface with a single sheet.

In addition, the plate may be installed on the inclined surface of the iron plate having a predetermined width.

In the present invention, it is possible to install the hook to the upper corner of the structure so as to lift the sofa structure by connecting the rope can be possible to repair and repair the structure and facility management.

In the present invention, it is possible to produce so that algae or small organisms can be inhabited while controlling the seawater flow by having a square square tube of stone vinegar in which gravel or large stones are inserted in the lower part of the sofa structure.

If the potential forced sofa structure having the fishery function of the present invention as described above is installed in a white sand beach of the coast where blue waves are generated, the beach maintenance cost can be reduced and the beautiful beach is created by preserving the beach by the seawater flow control of the forced sofa structure. And the expansion of the hydrophilic space.

In addition, it is possible to develop various marine and marine resorts as well as experiences of fishing and scuba and other marine ranches as a function of artificial reefs in the sea area where the sofa structure of the present invention is installed. It is possible to provide tourists with fishery specialties through the creation and high value-added marine products.

In addition, the steel structure is lighter in weight than the total volume, so it is very suitable for producing large structures for the purpose of sofas, and it is economical because it is easy to manufacture, transport, standardize and drop materials, and the design is free. Can be made into a structure.

The sofa structure of the present invention is very easy to manage the rehabilitation, re-installation, etc. after conducting seawater flow investigation and re-injuring the structure when the beach beach maintenance is insufficient after maintenance or when you want to make a new type of beach Can serve as a mold structure.

In addition, when repairing and repairing the structure, it can be easily repaired by re-emergence. And because of its efficient structural characteristics, seawater flow is efficiently controlled, so there is no side effect that pearls accumulate on the bottom of the seabed.

1 is a view illustrating a movable latent forced sofa structure having a reef function of a flat plate structure according to the present invention,
(a) is a three-dimensional view of the sofa structure,
(b) is a plan view of the sofa structure,
(c) is a front view of the sofa structure,
(d) is a side view of the sofa structure,
Figure 2 illustrates a movable latent forced sofa structure having a reef function of the inclined plate structure according to the present invention,
(a) is a three-dimensional view of the sofa structure,
(b) is a plan view of the sofa structure,
(c) is a front view of the sofa structure,
(d) is a side view of the sofa structure,
Figure 3 is a schematic diagram showing that the wave sofa by the sofa structure according to the invention,
4 is a diagram showing the forced stone weeding of the gravel and rock installed in the bottom space of the sofa structure of the present invention,
5 is a schematic view of a sofa by a conventional concrete structure,
Figure 6 is a side view showing another embodiment of the present invention, the support is formed on the bottom of the sofa structure protruding.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of a movable latent forced sofa structure having a fishery function of the present invention will be described in detail.

1 illustrates a movable latent forced sofa structure having a reef function of a flat plate structure according to the present invention.

Sofa structure of the present invention is configured to solve the problems caused by the tetrapod made of cement concrete currently installed in our country, in the construction of the sofa structure, made of steel frame structure consisting of steel (구조물).

Specifically, the sofa structure of the present invention constitutes a steel frame structure by forcing the horizontal beam 10, the vertical beam 20 and the pillar 30 of a predetermined length to the forced (鋼製).

The cross beams 10, the stringers 20, and the pillars 30 are spaced at regular intervals and connected to cross at right angles. Thus, the cross beams 10, the stringers 20, and the pillars 30 are spaced at regular intervals. The entire outline, which is interconnected at right angles apart, forms a cuboid-shaped frame.

In the present invention, the cross section (11, 12, 13) and the cross section (21, 22, 23) intersecting the cross beam 10 and the cross beam 20 absorbs the energy of the wave founder movement or the founder of the wave A plurality of plates 40 are installed to counteract the movement and offset the energy to sofa the waves.

In one embodiment of the present invention, the plate 40 is installed in a plane. That is, as shown in Figure 1, the iron plate 40 having a predetermined width is installed in a plane, in this case, the plate 40 may be installed in a multi-step staircase in the direction of the wave.

As shown in Figure 1 (d), the plate 40 is installed step by step in the lower floor portion is installed in a staircase shape. As such, the plate 40 installed in the step shape is installed in a multi-step in the direction of the wave is pushed, the energy of the founder movement of the wave is absorbed from the steel structure and the iron plate 40 or in the direction of the wave coming It can play a role in protecting the disappearing white sand because it acts to counter the energy of the founder of the next wave to return and to counter the wave.

In addition, the steel constituting the cross beam 10, the stringer 20 and the pillar 30 of the present invention is subjected to a corrosion prevention treatment for corrosion prevention.

In order to prevent corrosion of the structure, first, a conventional sacrificial anode method of attaching a metal such as zinc to the structure may be used, or a method of plating the entire structure with aluminum or the like may be used.

Figure 2 shows another embodiment of the present invention, it was shown that the plate 50 is installed in the inclined surface.

In this case, as shown in (d) of FIG. 2, the inclined surface 50 is connected to the upper layer in the form of smooth rounding at the bottom of the structure, it is preferable to install a plurality of such inclined surface (50).

Most preferably, at the bottom end of the sofa structure, the plate 50 is not installed so that the distribution of sea water can be made freely, and the plate 50 is installed from horizontal bars and vertical bars formed of two layers of the sofa structure to establish waves. Absorb the energy of the self-movement from the steel structure and the iron plate 50 or return to the direction in which the wave comes in contact with the motion of the founder of the next wave to offset the energy to act to sofa the wave.

In the present invention, the sofa structure may be installed in the upper corner of the structure to be lifted by connecting the rope, etc. It may be possible to repair and repair the structure and the facility management.

In addition, when you want to move the structure has a function that can be lifted and moved from the work line by connecting the rope to the ring.

On the other hand, the sofa structure of the present invention may be provided so that the algae or small creatures can be inhabited by controlling the seawater flow with the iron square barrel 70 in the form of stone vinegar put gravel or large stones at the bottom.

In addition, the sofa structure of the present invention has the advantage that can be installed in the soft ground soft seabed bottom by closing the bottom with an iron plate (60).

As such, the sofa structure with the bottom surface closed by the iron plate 60, etc., where the bottom of the sea floor is soft, that is, made of sand, nisin, sani, etc., where the concrete sofa material can not be installed and where the flow of seawater is relatively fast. Can also be installed.

In the scouring experiment of the bottom surface of the structure, if there is no bottom of the structure, it can be seen that the scour phenomenon that the front part of the structure is dug up with the change of the flow rate and the passage of time. You can see that the back and the back are gradually buried in the sand due to the same scour phenomenon.

In contrast, as in the present invention, when the bottom surface is closed by attaching the iron plate 60 to the entire bottom surface of the structure, the overall scour phenomenon in which the structure itself is buried in sand does not occur. However, in the case where the front part of the structure is formed without a steel plate or the like, the overall scour phenomenon in which the entire structure is buried in sand does not occur, but the scour in which the bottom of the front part of the structure is dug up is partially advanced.

On the other hand, the structure of the present invention, as shown in Figures 1 and 2, by forming the bottom plate 60 to extend from the bottom to the outside so that no step is generated, the partial scour of the front of the structure in the experiment for the flow is significantly reduced. That is, the present invention is to send the vertical cross-sectional area of the flow in front of the structure to the inside of the structure by sending the vertical cross-sectional area to the inner side rather than the end of the steel plate to act on the bottom plate of the structure, the flow caused by the pressure acting on the cross-sectional area Digging out to prevent scour.

Such a sofa structure of the present invention is provided with a plate having a flat or inclined surface to open the horizontal direction in order to reduce the flow resistance against the flow of waves, and the lower part of the sofa structure is vacant in a certain space to the bottom of the structure It can prevent the nitriding of the front surface of the structure by smoothing the flowing seawater flow.

At the same time, the structure of the present invention not only functions as a sofa, but also has a function as an artificial reef because seaweeds are attached to a flat or inclined surface plate 40 and 50 to act as an attachment surface.

The principle of the sofa of the wave of the latent forced sofa structure having a fishery function according to the present invention is as shown in Figure 3, when the creators of the circular motion below the surface of the wave touches the structure of the present invention while the energy is absorbed Along the inclined plate, the wave will flow in the opposite direction. And this flow counteracts the motion of the waves that follow to offset each other, acting as a sofa.

The movable latent forced sofa structure having a fishery function according to the present invention can be manufactured in a factory having a good quality control situation, so that the processing member can be easily transported, and no curing period is required after processing, so that assembly can be simplified in the field. The machining process is also short.

In particular, because the process is very short in the field and takes the form of assembly, if the curing period is needed, such as a concrete structure, a very large space is required, but this structure does not need a very large place.

In addition, the sofa structure of the present invention used a method of plating with a sacrificial anode method or aluminum to prevent corrosion of the steel, the actual corrosion rate of the steel in the sea is 1.35mm for 30 years (Japanese steel structure technical manual: approx. 60-70 years), which has a much longer life than concrete structures (endurance: estimated within 40 years). Therefore, using the method of corrosion mentioned above for forced corrosion, the service life will be longer.

As another embodiment of the present invention, as shown in Figure 6, by attaching a support 90 of the protruding form to the bottom surface of the sofa structure so that the sofa structure does not move to wave power or seawater flow.

The support 90 is preferably formed on the bottom surface of the sofa structure, a number, the position, the shape is not limited in the present invention.

In addition, such a sofa structure can also be used as a potential structure for preventing the loss of sand on the beach.

In addition, the rock bottom is laid flat on the bottom of the sofa structure to maintain the stability of the structure, and the stone square tube shaped stone tube that provides habitat for living creatures is installed to prevent sand loss by installing only this part around the sandy beach. Can also be used.

Although the present invention has been described in detail with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

10: horizontal beam 20: vertical beam
30: pillar 40: flat plate
50: inclined surface plate 60: iron plate
70: square stone square tube 80: ring

Claims (11)

In constructing the sofa structure,
Steel frame structure is composed of steel beams, stringers and columns of constant length.
By connecting the cross beams and stringers and columns spaced at regular intervals to cross at a right angle to the outer portion of the cuboid frame,
Absorbing or bumping the energy of the founder's motion of the wave between the cross section and the longitudinal cross where the cross beam and the cross beam are made to absorb or collide with the establisher movement of the wave to offset the energy to install a plurality of boards to couch the wave Forced sofa structure, characterized in that. The method of claim 1,
Compulsory constituting the cross beam and stringer and the column is a sofa structure, characterized in that the anti-corrosion treatment to prevent corrosion. The method of claim 2,
Compulsory constituting the cross beam and column beams and pillars is a forced sofa structure characterized in that the anti-corrosion treatment by a sacrificial anode method. The method of claim 2,
Compulsory constituting the cross beam and column beams and pillars is a forced sofa structure characterized in that the anti-corrosion treatment by aluminum plating. The method of claim 1,
The plate is a forced sofa structure, characterized in that for installing a flat plate with a predetermined width. The method of claim 5,
The plate is a forced sofa structure, characterized in that installed in a multi-step staircase in the direction of the wave. The method of claim 5,
The plate is a forced sofa structure characterized in that it is installed in a structure covering the entire surface of one sheet in the direction of the wave is pushed. The method of claim 1,
The plate material is a forced sofa structure, characterized in that for installing the iron plate having a predetermined width on the inclined surface. The method of claim 1,
Forced sofa structure, characterized in that the hook is installed in the upper corner of the structure so that the sofa structure can be lifted by connecting the rope to repair and repair the structure and the facility management. The method of claim 1,
Forced sofa structure, characterized in that it is produced so that seaweed or small creatures can be inhabited while controlling the seawater flow by installing the iron square barrel in the form of stone vinegar into which pebbles or large stones are inserted below the sofa structure. The method of claim 1,
Forced sofa structure, characterized in that having a structure for closing the bottom surface by installing an iron plate on the bottom surface of the sofa structure.

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