KR200317180Y1 - turnnel-like artificial reef constructed as circular cylinder with hole in side of it - Google Patents

Abstract

The present invention relates to a tunnel artificial reef structure that is implemented as a hollow cylinder with a hole in the outer peripheral surface, in the tunnel artificial reef structure with the inlet and the outlet is open, the inlet 12 and the outlet 15 is open The fish having a characteristic of straightness from the freshwater artificial reef structure formed of a hollow cylindrical structure 10 having a plurality of through-holes 13 having a size through which the fish can pass on the outer circumferential surface Its internal approach, habitation and spawning have the effect of acting as a sustainable fish habitat rather than a one-off.

Description

Tunnel-like artificial reef constructed as circular cylinder with hole in side of it}

The present invention relates to an artificial reef structure, and more particularly to a tunnel-type artificial reef structure implemented as a hollow cylindrical structure having a hole in the outer peripheral surface.

Artificial reef refers to an artificial structure in the water that is home to fish and benthic life.

In general, freshwater fish are distinctly morphologically and ecologically distinct from amphibians, reptiles, birds and mammals, which are air-breathing vertebrates that breathe in gills and exercise with fins in water.

The external shape of these fish is divided into four parts: head, trunk, tail, and fin. The fin is a vertical single fin and a pair of left and right paired fins. There is. The dorsal fin has dorsal fin, hind fin and caudal fin, and other fins and badger fin.

In addition, the outer body shape of the fish is variously developed according to the characteristics and habitats of each species, and can be divided into a swimming type that moves around the surface and the middle part of the water layer, and a benthic type that lives on the bottom part.

Fish skeleton having such a shape is well adapted to an aquatic environment made of a liquid medium called water, and basically has the characteristics of 1) a straight streamer that moves to the front by a fin structure.

In addition, the foods that are eaten are very diverse and are divided into plankton feeding fish, herbivorous fish, carnivorous fish, omnivorous fish, aspirate fish, and parasitic fish according to the type of food. It is also directly connected.

However, most fish have a characteristic of evasive behavior depending on whether shadows are shadowed in water in order to avoid the predatory pressure from birds (birds) or other animals.

In addition, 3) contact with the body, such as stones or plants for spawning, can also be referred to as the basic ecological characteristics of fish.

Therefore, the reefs should be designed in consideration of the above-mentioned fish characteristics, but until now there has been no development of the reefs in consideration of the above characteristics of the fish.

On the other hand, as a conventionally developed fish reef, artificial reefs are formed in Korea Registered Utility Model Publication No. 20-0207913 (announced on December 15, 2000) by forming a structure with special concrete to form voids on the surface and openings on each side thereof. In the tunnel-type artificial reef, the Republic of Korea Registered Utility Model Publication No. 20-0284610 (August 5, 2002) discloses a tunnel artificial reef in which a plurality of openings are formed through the four sides of the ceiling, the floor, and the left and right walls. However, the reefs implemented by the prior art are hexahedrons, and openings are formed on each surface, so that fish may freely enter the reefs, but considering the straightness of the fish described above, the fish moving in parallel to the water surface Due to the nature of the straightness, it is not possible to enter the opening formed at right angles to the water at a 90 ° angle. There. Thus, access to fish is virtually limited.

The present invention has been made in view of the above problems, in view of the characteristics of the fish with a straightness, concealability, contact to provide a fish that can maximize the accessibility and settlement of the fish.

1 is a perspective view of a freshwater artificial reef 10 according to the present invention

2 is a perspective view and a cross-sectional view of the freshwater artificial reef structure of the present invention supported by the net body 21.

3 is a perspective view of a freshwater artificial reef structure of the present invention having a cross-shaped structure 31 provided therein and a microbial contact agent 32 provided below.

Figure 4 is a perspective view of the present invention freshwater artificial reef structure having a support frame 41 for fixing the freshwater artificial reef to the inside is further provided outside the hollow cylindrical structure.

5 is a perspective view of the present invention freshwater artificial reef structure which is further provided with an artificial island and an upper frame 52 capable of supporting the same, and a bar 51 which is vertically varied with respect to the water surface.

6 is a perspective view of the present invention freshwater artificial reef structure in which the artificial island 61 is actually laid.

* Description of the symbols for the main parts of the drawings *

<10> artificial reef structure having a hollow cylindrical structure

<21> Mesh <31> Inner Support

<32> Microbial Contact <41> Outer Frame

<51> Adjustable Bar <61> Artificial Island

In order to achieve the above object, the present invention is a tunnel artificial reef structure in which the inlet and the outlet are open, the inlet part 12 and the outlet part 15 are formed in a hollow cylindrical structure, the fish is formed on the side It provides a freshwater artificial reef structure, characterized in that provided with a plurality of through-holes 13 of a size that can pass through.

Hereinafter, with reference to the accompanying drawings, an embodiment of the present invention in detail as follows, but the scope of the present invention is not limited only to the following embodiments.

1 is a perspective view of a freshwater artificial reef 10 according to the present invention, Figure 2 is a perspective view and a cross-sectional view of the freshwater artificial reef structure of the present invention supported by the network 21, Figure 3 is a cross-shaped structure therein A 31 is a perspective view of a freshwater artificial reef structure of the present invention provided with a microbial contact agent 32 at the bottom thereof, and FIG. 4 is a hollow support frame 41 for fixing the freshwater artificial reefs therein. 5 is a perspective view of a freshwater artificial reef structure of the present invention, which is additionally provided outside the cylindrical structure of the present invention, and FIG. 5 is a bar that is vertically varied with respect to the surface of the artificial island 61 and the upper frame 52 capable of supporting the same. A perspective view of the present invention freshwater artificial reef structure, which is further provided with 51, and FIG. 6 is a perspective view of the present invention freshwater artificial reef structure having an artificial island 61 attached thereto.

The present invention, as shown in Figure 1, in the tunnel type artificial reef structure with the inlet and the outlet is open, the inlet 12 and the outlet 15 is formed of a hollow cylindrical structure (10), Freshwater artificial reef structure, characterized in that provided with a plurality of through-holes 13 of the size through which the fish can pass through the outer peripheral surface.

Freshwater fish is characterized by the straightness, the fish not only approaches the inside of the fish through the inlet 12 and outlet 15 of the present invention, but also the outer peripheral surface of the cylindrical cylindrical structure 10 of the present invention Through the hole 13 formed in the will be freely accessible to the bottom of the subject innovation. The size of the hole 13 formed on the outer circumferential surface of the hollow cylindrical structure 10 may be variously adjusted according to the size of the fish to be guided.

On the other hand, in the present invention provided with a plurality of the reefs described in Figure 4, not only the hole formed in the outer peripheral surface of the outermost fish, but also through the hole 13 formed in the outer peripheral surface of the inner reef, the fish approaches the inside of the reef can do.

In the case of a conventional hexahedron (Republic of Korea Registered Utility Model Publication No. 20-0207913; see Figure 3 of the notification date 2000. 12. 15) is provided with a plurality of fish reefs, as described above, many reefs are provided in a connection type Even if it is, the fish that once approached the upper side of the reef can only move along the upper side through the upper side due to the ecological characteristics of the immediate reef, and can't enter the inside of the reef by turning the angle at an angle of 90 degrees. There is.

However, the reefs of the present invention can be entered into the inside of the reefs through the outer periphery of another reef, even though it is a fish approaching the upper surface of the reefs, even though it is a fish approaching the top of the reefs.

On the other hand, the material of the hollow cylindrical structure may be used as long as it is a material commonly used as a fish herb, in consideration of the biological characteristics of the fish, it is preferable that it is a probiotic material, eco fish mat (11) More preferably.

Eco-Fish mat is a rubberized coconut fiber sheet, which is an environmentally-friendly and nature-friendly material prepared by impregnating rubber into coconut fiber.

Therefore, the above-mentioned eco-fish mat is preferably composed of a hollow cylinder, and due to the characteristics of the material of coconut and raw rubber, it is not toxic and has a biotic texture, so that the scattering, attraction and settlement of the fish is further enhanced. It has an enhanced effect. In addition, by implanting aquatic plants such as submerged plants in the eco fish mat can enhance the above effects.

It is more preferable that the eco fish mat 11 is wrapped and supported by the mesh 21 in consideration of the property of underwater.

At this time, more preferably, the mesh body has a size 22 larger than that of the hole 13 provided on the outer circumferential surface of the unit cell so as not to block the hole 13 provided on the outer circumferential surface of the cylinder. This is to prevent the problem of blocking the provided holes.

The mesh can be made of any material that can be supported and durable in water, but preferably high density polyethylene (HDPE) material is used.

On the other hand, the hollow cylindrical structure 10 is preferably a plurality of cross-shaped support 31 is attached to the inner circumferential surface is partitioned inside the cylinder.

The cross support 31 not only supports the hollow cylindrical structure 10 therein, but also acts as an obstacle at the inlet of the cylindrical structure, and the hollow cylindrical structure inlet 12 is appropriately out of the simplified structure. By becoming more complex, they play a more close role in the habitat of fish.

In this case, the support may optionally use a cross-shaped support that divides the inside of the cylinder into four fractions, as well as various types of support that divides the inside of the cylinder into three or five or more fractions.

In addition, the hollow cylindrical structure 10 is inserted into the material of the various materials that can help the habitat environment of the fish therein, to form a certain degree of complex structure to match the habitat environment of the fish Desirable. At this time, the material can be optionally used as long as it can help the habitat of the fish. However, it is preferable to use any one or more selected from the porous lightweight ceramics 22, charcoal 23, and wood 24.

Since the components are materials having probiotic properties, they not only act to increase the contact of fish and induce spawning, but are also preferable in terms of water purification.

On the other hand, the present invention is preferably provided with a microbial contact 32 in the vertical direction to the water surface below the hollow cylindrical structure 10, the microbial contact 32 is a conventional structure and generally used Use the material of the material.

The microbial contact agent effectively decomposes the excreta of fish inhabiting the upper reefs due to the microorganisms in contact, so that the habitat environment is not contaminated, but also algae, etc. can be attached, thereby effectively concealing small fish. It functions and attracts small fish by providing a play space.

On the other hand, preferably the hollow cylindrical structure 10 of the present invention is preferably provided with an additional support frame 41 to the outside to the cylindrical structure 10 to the outside, the support frame 41 is in the frame The hollow cylindrical structure 10 of the present invention serves to support the stationary.

The frame can be used in various materials regardless of a special material, it is preferable to use a material such as stainless steel in consideration of strength and corrosion resistance.

Although the shape of the frame is described in FIG. 4 in the form of a rectangle, it may be selectively used by variously changing the polygon to a polygon such as a triangle or a pentagon as necessary.

The hollow cylindrical structure of the present invention provided with the support frame 41 on the outside thereof is preferably further provided with a microbial contact agent 32 in the vertical direction with respect to the water in the lower portion of the cylindrical structure and the lower portion of the cylindrical structure supporting frame. It is preferred that the action resulting therefrom is the same as the microbial contact agent described above.

On the other hand, preferably the hollow cylindrical structure 10 of the present invention is provided with a support frame on the outside in the vertical direction of the upper frame 52 and the water surface filled with buoyancy material, which can support the artificial island 61 Is connected to the bar 51 is changed to a predetermined length for a good one to configure an integrated fishery system.

At this time, the artificial island can be installed by selectively providing a penetrating hole 62 on the surface of the artificial island, if necessary, the hole 62 serves to supply light to the lower part of the artificial island. Helps inhabit fish that are attracted to.

In general, fish species have different habitats, spawning habits, and food habits. Especially, carp, crucian carp, smelt, and mandarin fish, which are widely regarded as freshwater fish stocks, have their own food sources and main habitats (depth and surrounding environment). Since the conditions) are different, their installation depth must be adjusted, which is embodied as the variable bar 51 described above.

By the above bar, the artificial reefs of the present invention can be variously mounted at different depths, thereby enabling the breeding and spawning behavior of various fish species.

In the roots brought down from planted plants, various kinds of fry gather not only as a kind of effective hiding place, but also to attract predatory fish such as mandarin fish from the outside. And, in the above structure, the lower hollow cylindrical structure 10 provides spawning and habitat for carp, crucian carp and other fish, and provides spawning and habitat for predatory fish induced by roots descended into the water. It is to play a role.

The present invention was conceived in consideration of the basic ecological characteristics of fish 1) straightness, 2) concealment, 3) contact, etc. In the tunnel type artificial reef structure with the inlet and the outlet open, the inlet 12 and The outlet portion 15 is formed of a hollow cylindrical structure 10 having an open shape, and has a straightness characteristic from a freshwater artificial reef structure having a plurality of through-holes 13 having a size through which a fish can pass on an outer circumferential surface thereof. The fishes approach the inside of the reef from various directions, and they are inhabited and spawned so that they can serve as a sustainable fish habitat.

In addition, the development of the artificial islands and the reefs can be adjusted to a variety of reef system that can adjust the depth, it is effective to provide a structure that can be easily hidden from predators from small to medium to large fish such as gardenia.

In particular, the eco-friendly fish-based eco-fish mat not only acts as a habitat for fish, but also acts as a habitat for fish, and thus serves as a habitat for spawning and spawning in real freshwater. It is effective to take charge of.

Claims (11)

In the tunnel artificial reef structure with an inlet and an outlet opening, The inlet 12 and the outlet 15 is formed of a hollow cylindrical structure 10 open, characterized in that the outer periphery is provided with a plurality of through-holes 13 of a size through which fish can pass. Freshwater artificial reef structures. The method of claim 1, The hollow cylindrical structure 10 is a freshwater artificial reef structure, characterized in that the material is an fish fish mat (11). The method of claim 1, The hollow cylindrical structure 10 is a freshwater artificial reef structure, characterized in that a plurality of cross-shaped support 31 is attached to the inner peripheral surface of the cylindrical structure (10) therein. The method of claim 1, The hollow cylindrical structure 10 is a freshwater artificial reef structure, characterized in that attached to any one or more selected from the porous lightweight ceramic 22, charcoal 23 and the tree 24 therein. The method of claim 1, The hollow cylindrical structure 10 is a freshwater artificial reef structure, characterized in that provided with a microbial contact agent 32 in the vertical direction to the bottom. The method of claim 1, The hollow cylindrical structure (10) is a freshwater artificial reef structure, characterized in that the support frame 41 is further provided with the cylindrical structure (10) fixed to the outside. The method of claim 2, The cylindrical structure (10) consisting of the eco-fish mat (11) is a freshwater artificial reef structure, characterized in that the outside is wrapped and supported by the mesh (21). The method of claim 6, The freshwater artificial reef structure is a freshwater artificial fish, characterized in that additionally provided with a microbial contact 32 in the vertical direction with respect to the water in the lower portion of the cylindrical structure 10 and the lower portion of the cylindrical structure supporting frame (41). Second constructions. The method of claim 6, The hollow cylindrical structure 4 having the support frame 41 fixed to the cylinder structure 10 therein is provided with an external buoyant material and an upper frame 52 capable of supporting the artificial island 61. And, freshwater artificial reef structure, characterized in that connected to the bar (51) variable in a predetermined length with respect to the direction perpendicular to the water surface. The method of claim 7, wherein The mesh is larger than the hole provided in the outer circumferential surface of the hollow cylindrical structure 10, and the size of the unit cell 22 does not block the hole formed in the outer circumferential surface of the hollow cylindrical structure 10. Freshwater artificial reef structure, characterized in that provided on the outside. The method of claim 7, wherein The mesh is freshwater artificial reef structure, characterized in that the material is high density polyethylene.