KR200386996Y1 - Artificial reef using timber from thining - Google Patents

Abstract

 The present invention relates to artificial reefs using thinning timber, by using thinner timber discarded as useless materials for fish nesting of artificial reefs, while improving resource recycling and providing cheaper and environmentally friendly artificial reefs. It is done.

In order to achieve this purpose, artificial reefs using thin timber according to the present invention have a bottom forced beam seated on the sea bottom connected to form a rectangular lower frame, and a vertical forced beam is installed at each connection point of the lower frame. The upper forced beam is connected to the upper end of the vertical forced beam to form a hexahedral shape of the central structure, and one end of the extended forced beam extends both ends of the bottom forced beam by a predetermined width. It is connected so as to extend, and the other end of the extended forced beam is connected to the external forced beam so that the planar shape of the lower portion of the bottom of the octagon, and the external forced beam and parallel to the vertical plane of the center of the outer forced beam and the An inclined forced beam is installed between the upper forced beams so that the shape of the entire reef forms a truncated octagonal pyramid; The central aquatic frame is divided into two floors, and the upper layer is provided with two inner rows of thinning wood panels facing each other inclined with respect to the center, and a lower stone is placed with a sandstone to provide a spawning ground and a hideout of fish and shellfish. On the inclined surface formed by the outer forced beam, the inclined forced beam and the upper forced beam, three rows of external thin timber boards arranged in two rows are installed, and the outer layer outside the lower layer of the central structure where the sandstone is placed is located along its circumference. The lower thin timber board is installed to be inclined toward the center of the upper frame, and each connection point of the lower frame seated on the sea bottom is provided with a circular bottom plate for lowering the ground pressure.

Description

Artificial reef using timber from thining}

The present invention relates to artificial reefs using thinning timber, and to use the thinning wood discarded as a material for fish nesting of artificial reefs to improve the recycling of resources and to provide cheaper and more environmentally friendly artificial reefs. will be.

Artificial reefs are fishery facilities aimed at protecting and nurturing the target fisheries by installing artificial structures on the seabed, and aiming to increase the catch of fisheries, increase efficiency and protect the fishery. Artificial reefs are good habitats for algae that play a large role in the sea ecosystem, and abundant seaweeds are good food for fry and good spawning grounds for fish. In addition, artificial reefs prevent rugged currents and create vortices, providing abundant dissolved oxygen and fine plankton, making them an excellent resting place for fish.

These artificial reefs are usually made of simple shapes such as squares, hexagons, cylinders, hemispheres using concrete, steel, stone, waste tires, etc., but recently, they are made of various materials and complex shapes, resulting in shading and vortex effects. It is being developed more effectively to counteract aquatic organisms such as fish through feeding, feeding and shelter effects.

An example of this is the Republic of Korea Patent No. 335013 of the inventors, which is a more environmentally friendly artificial reef using a ceramic material that is mixed with the ocher shells discarded in the fishing village and then fired to have a certain strength By providing the fish will increase the counterfeiting effect. Another example is Republic of Korea Patent No. 463730, which is arranged to form a truss structure by recycling the PC sleeper member for railroad to enhance the resource recycling effect.

In response to these recent developments, the inventors have made continuous efforts to develop new artificial reef materials, and have found that thinning timber, which is disposed of in large quantities every year, can be recycled as a natural-friendly artificial reef material. Thinning means cutting some trees before leaving the main harvest in the forest where the growth of trees is almost complete. As forests grow, branches and leaves thrive and competition between trees grows, and trees with poor growth grow dry. This slows down the growth of the trees and makes it easier to receive pests, wind and snow. In order to alleviate this competition, some trees are cut and trimmed to control the density of the forest, and the remaining trees are exposed to the sun to restore growth. The thinning is carried out with the purpose of cutting the back and fostering healthy forests.

The timber produced through thinning is currently used as a structure for all-purpose materials and road protection after embalming for long-term use, but a large amount of thinning wood is disposed of every year due to low demand. The inventor noticed that the thin timber discarded in this way is excellent in environmental friendliness, but is very inexpensive compared to conventional ceramic materials, and has developed an artificial reef using the same.

The present invention was developed in response to the recent development trend of artificial reefs, and it is not only cheaper and more environmentally friendly by cutting thin-walled timber that has been discarded in large quantities every year in the form of a plate, and then attaching it to a steel reef in the form of a truncated octagonal pyramid. In addition, the aim is to provide artificial reefs to further enhance the counterfeiting effect of fish.

In order to achieve this purpose, artificial reefs using thin timber according to the present invention have a bottom forced beam seated on the sea bottom connected to form a rectangular lower frame, and a vertical forced beam is installed at each connection point of the lower frame. The upper forced beam is connected to the upper end of the vertical forced beam to form a hexahedral shape of the central structure, and one end of the extended forced beam extends both ends of the bottom forced beam by a predetermined width. It is connected so as to extend, and the other end of the extended forced beam is connected to the external forced beam so that the planar shape of the lower portion of the bottom of the octagon, and the external forced beam and parallel to the vertical plane of the center of the outer forced beam and the An inclined forced beam is installed between the upper forced beams so that the shape of the entire reef forms a truncated octagonal pyramid; The central aquatic frame is divided into two floors, and the upper layer is provided with two inner rows of thinning wood panels facing each other inclined with respect to the center, and a lower stone is placed with a sandstone to provide a spawning ground and a hideout of fish and shellfish. On the inclined surface formed by the outer forced beam, the inclined forced beam and the upper forced beam, three rows of external thin timber boards arranged in two rows are installed, and the outer layer outside the lower layer of the central structure where the sandstone is placed is located along its circumference. The lower thin timber board is installed to be inclined toward the center of the upper frame, and each connection point of the lower frame seated on the sea bottom is provided with a circular bottom plate for lowering the ground pressure.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of an artificial reef using a thinning timber according to the present invention in more detail. 1 is an overall perspective view of an artificial reef according to the present invention, Figures 2 to 4 is a view showing only a specific portion of the artificial reef according to the present invention. For reference, FIGS. 2 and 3 have not shown the other components in order to clearly show the specific parts to be described.

As shown in Fig. 1, the artificial reef using the thinning timber according to the present invention forms a truncated octagonal pyramid shape as a whole, and is made of steel skeleton and thinning timber boards 21, 25, and 30 installed at predetermined positions. It is composed. First, the skeleton structure made of steel, the four bottom forced beams 11 seated on the bottom of the sea are connected to form a right angle to each other to form a rectangular lower frame, each of the connection points of the lower frame is a vertical force The beam 12 is installed, and the upper forced beam 13 is connected to the upper end of the vertical forced beam 12 to form a central pyramid 10 having a hexahedron shape having four vertical surfaces.

In the lower portion of the central structure 10, one end of the extension forced beam 14 extends both ends of the bottom forced beam 11 by a predetermined width, that is, the four vertical planes of the central structure 10 and It is installed to be parallel. At the other end of the extended forced beam 14, external forced beams 15 and 16 are connected to each other so that the planar shape of the bottom of the grass becomes octagonal. The external forced beams 15 and 16 face edge portions where the external forced beams 16 and the four vertical planes of the central cage 10 meet in parallel with the four vertical planes of the hexahedral central cage 10. The beam is divided into an external forced beam 15, in which the oblique forced beam 17 is disposed between the upper forced beam 13 and the external forced beam 16 disposed parallel to the four vertical planes of the central abutment 10. It is installed at the base so that the skeletal structure of the reef is in the shape of a truncated octagonal pyramid.

The artificial reefs according to the present invention have a skeleton structure of a truncated octagonal pyramid by a plurality of forced beams as described above, and at the same time, a plurality of preservative thinning timber boards (21, 25, 30) are attached to provide a substrate for engraftment of seaweeds. To provide more environmentally friendly undersea conditions. This thinning timber board is made by recycling discarded thinning timber, which can be used for 3 to 8 times longer than normal wood life through preservative treatment, so that it can show its function throughout the life of artificial reefs. In addition, although it does not appear exactly on the drawing, by making the surface of the thin timber board in the form of unevenness, such as a washboard, it is difficult to move the breakfast animals such as seashells and abalones to prevent the feeding of young algae in the early engraftment.

The inner thin timber board 21 is installed in two stages inside the central abutment 10. The interior of the central structure 10 is largely divided into two layers, an upper layer and a lower layer. The inner thin timber board 21 is installed on the upper layer. The inner thin timber board 21 constituting one stage is arranged in two rows, one row is composed of a total of four inner thin timber board 21 and is installed to face each other inclined relative to the center. As such, when the inner thin timber board 21 is installed to face each other inclinedly, it is more advantageous for vortex formation by algae than being installed inclined in one direction.

The inner thin timber board 21 is placed on the plate support beam 22 across the upper forced beam 13 and fixed by the plate holder 23 mounted on the inner thin wood board 21 to the algae. Departure is prevented by Figure 2 shows both the inner thinning timber board (21a, 21b) installed in two stages, the inner thinning timber board (21a) installed on the top and the inner thinning timber board (21b) installed on the bottom are arranged horizontally It is installed so as to be vertically opposite. This is more advantageous for the formation of the vortex because it can provide an inclined surface with respect to the direction in which direction the algae flows.

On the other hand, on the inclined surface of the reef formed by the external forced beam 16, the oblique forced beam 17 and the upper forced beam 13, the external thin timber board 25 arranged in two rows is provided in three stages. The outer thin plate 25 is also placed on the plate support beam 26 across the oblique forced beam 17, like the inner thin plate 25, and is mounted on the outer thin plate 25 It is fixed by 27 and is prevented from being separated by algae. Since the external thin timber board 25 is installed at the outermost part of the reef and directly collides with the algae, three external thin timber boards 25 forming one row are spaced apart at regular intervals to minimize resistance by algae. It is desirable to. When the algae reaches the inclined surface on which the outer thin timber board 25 is installed, some rise along the surface of the outer thin timber board 25 to form a vortex, and a part of the space between the outer thin wood board 25 As it passes, it creates a sound effect. In addition, a shadow is formed behind the outer thin timber board 25. As such, the external thin timber board 25 exhibits a complex function effective for fish forgery, such as vortex formation, sound effect, and shadow effect.

Finally, the lower thinning timber board 30 is installed to be inclined toward the center of the outer frame 10, the outer layer of the lower layer of the center of the outer shell 10. As such, when the inclined surface of the lower thin timber board 30 is installed to face the inside of the central sheath 10, vortices or uptakes caused by the inclined surface are concentrated in the center of the central sheath 10 so that the sandstone 24 The richer dissolved oxygen and franktonton can provide the surrounding fish and shellfish, which is a great help for growth.

In addition, the lower thin timber board 30 is installed in two rows, the inner row adjacent to the center of the upper frame 10 is installed in two stages and the outer row is installed in one stage is configured to form a step. Each lower thinning timber board 30 is seated on the auxiliary horizontal beam 28 and the auxiliary vertical beam 29, and is not shown but is attached to the plate holder like the inner and outer thinning wood boards 21 and 25 described above. To prevent it from being released by the algae. The lower thin timber board 30 complicates the space between the central upper frame 10 and the inclined forced beam 17 to generate shadows and vortices. However, since the larger the volume ratio of the artificial reefs is advantageous to the overfishing of large fish, the lower thin timber timber board 30 is preferably formed in a step shape so that the above-described effect can be maximized while utilizing a minimum space.

In the lower inner layer of the central shell 10 is placed a sandstone 24 that provides a spawning and hiding place for fish and shellfish. The spaces between these and 24 provide a good place for fish and lair. When artificial reefs are dropped in the seabed environment where the algae is severe, it is often the case that the sandstone 24 is lost to the outside of the central seattle 10. Therefore, in order to prevent the loss of the dead stone 24, a lattice cover frame 31 is provided on the lower layer of the central structure 10 on which the dead stone 24 is placed, as shown in FIG. The main function of the lattice cover frame 31 is to prevent the loss of the dead stone (24), but also to be installed inside the hexahedral center of the main frame 10 to improve the structural stability of the reefs. . More preferably, an upper mesh 32 made of expanded metal or the like is further provided on the grid frame 31. The upper mesh 32 effectively prevents the loss of the dead stone (24) as well as the young seaweeds inhabited by the dead stone (24) to be eaten by breakfast animals.

On the other hand, as shown in Figure 4, at each connection point of the lower frame seated on the sea bottom is provided a circular bottom plate 35 for lowering the ground pressure. Since the bottom forced beam 11 constituting the lower frame is very narrow in width, when it is placed on the sea bottom as it is, the ground pressure is greatly increased. This deteriorates the structural stability of artificial reefs, making it impossible to drop them into soft ground composed of nizil, nisasil, and the like. In order to solve this problem, a plate having a wide surface has been installed in the bottom of the artificial reef, which is placed directly on the bottom of the sea, to lower the ground pressure. Circular bottom plate 35 is also provided for this purpose, but has a feature different from the conventional in that the shape is made circular. That is, the present inventors found that the longer the edge of the base plate is, the longer the ground length with the ground is, which is advantageous in preventing settlement, and as a result, the circular shape with the longer edge than the other type of base plate with the same width is found. The bottom plate 35 is to be installed.

 In the lower structure of the artificial reef, the bottom forced beam 11, the extended forced beam 14 and the external forced beams 15 and 16 are provided only in one stage, and the inside of the central upper frame 10 is provided. It is possible to place the stone seat 24 is located on the bottom as it is. However, if the sandstone 24 is placed directly on the seabed, it may be buried by the flow of sand at the bottom of the seabed, and thus may not function as an algae attachment substrate. In order to solve this problem, as shown in FIG. 5, the bottom forced beam 11, the extended forced beam 14, and the external forced beams 15 and 16 are all divided into two stages spaced by a predetermined height t. As shown in Fig. 4, the sandstone 24 is placed on the lower support 33 and the lower mesh 34 installed in the bottom forced beam 11 to prevent direct contact with the sea bottom.

According to the artificial reef using the thinning timber according to the present invention described above, by using the thinning timber that is discarded as a fish forgery material of artificial reefs, it is possible to provide a more environmentally friendly seabed environment at the same time to increase resource recycling. have.

1 is a perspective view of an artificial reef using a thinning timber according to the present invention.

Figure 2 is a front view showing a central upper portion of the thinning timber according to the present invention.

Figure 3 is a perspective view showing a central lower portion of the thinning timber according to the present invention.

Figure 4 is a bottom perspective view of thinning wood according to the present invention.

Figure 5 is a front view showing the lower end of the thinning timber according to the present invention.

※ Explanation of code about main part of drawing ※

10: Center Aether 11: Bottom Force Beam

12: vertical forced beam 13: top forced beam

14: extended forced beam 15, 16: external forced beam

17: oblique forced beam 21: internal thinning timber

22: plate support beam 23: plate holder

24: Baptist 25: External Thinning Timber

26: plate support beam 27: plate holder

28: auxiliary horizontal beam 29: auxiliary vertical beam

30: lower thin timber board 31: lattice cover frame

32: upper mesh 33: lower support

34: lower mesh 35: round bottom plate

Claims (5)

The bottom forced beam 11 seated on the bottom of the sea is connected to form a rectangular lower frame, and each of the connection points of the lower frame is provided with a vertical forced beam 12, the upper portion of the vertical forced beam 12 The upper forced beam 13 is connected to form a hexahedral shape of the central structure 10, and one end of the extension forced beam 14 is the lower portion of the bottom forced beam 11 in the lower portion of the central structure 10 It is connected to extend the end by a predetermined width, and the other end of the extended forced beam 14 is connected to the external forced beam 15, 16 so that the planar shape of the lower base is octagonal, the external forced beam ( Among the 15 and 16, an oblique forced beam 17 is installed between the external forced beam 16 and the upper forced beam 13 installed in parallel with the vertical plane of the central upper frame 10 so that the shape of the entire reef is truncated octagonal pyramid. Configured to achieve; The central aquatic frame 10 is divided into two layers, but the upper thin layer timber boards 21 arranged in two rows on the upper layer are installed to face each other inclined with respect to the center, and the lower layer provides a spawning ground and a hiding place for fish and shellfish. The seat 24 is placed, the inclined surface formed by the external forced beam 16, the inclined forced beam 17 and the upper forced beam 13, the external thin timber board 25 arranged in two rows is three steps Is installed in, the lower layer of the center of the center structure 10 is placed outside the lower timber board 30 is installed to be inclined toward the center of the base 10, along the periphery, seated on the seabed Each connecting point of the lower frame is artificial reef using thin timber, characterized in that the circular bottom plate 35 is installed to lower the ground pressure. According to claim 1, wherein the inner thin timber board (21a, 21b) is installed in two stages so that the arrangement direction of the upper and lower ends are horizontally and vertically opposite; The lower thin timber board 30 is installed in two rows, the inner row adjacent to the center of the upper frame 10 is installed in two stages, the outer row is installed in one stage, characterized in that configured to form a step Artificial reefs using wood. According to claim 2, Artificial reefs using thin timber, characterized in that the lattice cover frame 31 is installed in the lower layer of the central upper frame 10 to prevent the dead stone (24) is lost. The artificial reef using thin timber, according to claim 3, wherein the grid-shaped cover frame (31) is further provided with an upper mesh (32). The bottom forced beam 11, the extended forced beam 14, and the external forced beams 15 and 16 are all in two stages spaced apart by a predetermined height (t). Is installed, the sandstone 24 is artificial reef using thinning timber, characterized in that placed on the lower mesh 34 installed on the top of the bottom forced beam (11).