KR200227407Y1 - Steel fish shelter with highly adhesive plate - Google Patents

Abstract

The present invention relates to a forced reef made of a steel structure, strong strength, light weight compared to the volume, easy to transport and drop, and easy to install, and has a frame structure having an internal space by connecting a plurality of forced beams. In addition, the mounting plate is installed on the outer surface of the frame structure, wherein the mounting plate is characterized in that the surface roughness in order to increase the attachment effect of the living organisms. In addition, the welding plate can be replaced by welding the bonding beam having a separate U-shaped cross-sectional shape to the forced beam and inserting and detaching the attachment plate to the bonding beam.

The present invention is also based on the forced reefs with large imposed effect of the attached organisms and fish, and the coarse attachment plate is formed in the frame structure to maximize the effect of the forced reefs and greatly enhance the attachment of the attached organisms. Can be.

Since the present invention is an assembly capable of assembling, it is possible to manufacture in a narrow working space compared to concrete reefs when manufacturing the reefs, and has an effect of maximizing the effect of the forced reefs by having an attachment plate that promotes attachment of adherent organisms.

Description

STEEL FISH SHELTER WITH HIGHLY ADHESIVE PLATE}

The present invention is made of a steel structure, the strength is strong, the weight is lighter than the volume, and easy to transport and drop work, and relates to a forced reef (鋼製 魚 礁) easy to install.

In recent years, fisheries in Korea have been markedly reduced due to the reduction of ocean fishing grounds due to the establishment of the 200 nautical mile economic zone system and overfishing of offshore fishing grounds.

The government is also actively involved in the development of fisheries and technology development by enormous budget to protect Korea's fisheries.

The artificial reef business, which is being implemented in this respect, is increasingly recognizing its effects, and facilities are expanding. In order to attract artificial reefs to nearby fishing areas, local fishermen are very active, and surveys are also very effective.

<Table 1> is a catch effect analysis table of artificial reef fishing grounds, which shows the catch rate of artificial reef fishing grounds as a percentage when 1 is not installed. For reference, the artificial reefs in <Table 1> are concrete reefs used in the past.

Sea area 1991 1992 1993 1994 1995 1996's Average East Sea 5.6 1.6 3.0 6.7 5.5 3.0 4.2 West Sea 2.3 4.9 3.0 2.2 2.9 3.7 3.2 Namhae 6.5 1.4 4.5 5.1 3.5 9.7 5.1 Jeju Island 6.0 3.4 0.7 7.3 4.2 15.2 6.1 Average 5.0 2.8 2.8 5.3 4.0 7.9 4.6

As shown in <Table 1>, the catches of the fisheries with artificial reefs are much higher than those with no artificial reefs.

In general, artificial reefs are put into the sea for the purpose of helping the breeding and habitat of aquatic animals, and the seaweeds are attached to these artificial reefs to form an ecosystem, so that the fish live or use as spawning grounds. It also serves to prevent overfishing, which is the target of coastal fishery. Since artificial reefs are installed at the bottom of the sea, they can be used as obstacles when dragging the nets. do.

The artificial reef project, which has been implemented since 1971 as part of the resource development of coastal fisheries, is currently located in the East-West and South Seas of Korea, and is located in a vast sea area that is difficult to find a lot of land with a new artificial reef facility.

From 1971 to 1984, reefs developed mainly for fish were installed in the sea area of 20-40 meters, but recently, algae reefs (semi-spherical type) were developed for the growth of algae and reef-like benthic organisms. Echo, Horn triangular ponchos, etc.) are installed in the sea within 20 meters of water.

However, since the conventional artificial reefs are manufactured as a single material called concrete, the efficiency of the artificial reefs is very low, and it is difficult to enlarge the design structure. In addition, there is a problem that a large production space is required for the production of the eocho and because it is too heavy for the volume, the cost of carrying and dropping.

In addition, as the depth of the artificial reef fishery facility is extended from shallow water to deep sea, it is very difficult to install the structure of the conventional artificial reef fish which is installed within 50 m of water depth to the deep sea.

Therefore, it has been recognized that various types of fish stock models need to be developed depending on the target species of the artificial fish reef, the sea area and the depth of water installed, and the demand for the diversification of the materials has been raised. Co., Ltd. began jointly developing deep-sea type and soft ground forced reefs.

Forced reefs are lighter in weight and can be scaled up in size compared to the size of the reef structure. In addition, it has the advantage of easy transport operation and short air (engineering).

<Table 2> is a comparative analysis of the effects of forced and concrete reefs, and each number represents a ratio when the non-installation site is viewed as 100.

division Forced reef Concrete Reef Non-location Number of catches 317 220 100 Catch 233 186 100 Living organisms 473 212 100

As seen above, catches and populations of forced reefs were significantly higher than those of concrete reefs.

In Japan, the development of mandatory reefs began in 1962. Since 1976, the government has selected the mandatory reefs as official reefs, and since 1994, has invested 20 billion yen every year. In recent years, 63 large buildings with oversized forced reefs have been installed at a depth of 200m or more. In addition, according to the data of the forced reef effect survey in Japan, the forced reef has an excellent effect compared to the conventional concrete reef in the fish forgery and adherent biological effect investigation in the artificial reef fishery.

Although it was lately affected by these results, in Korea, the first full-scale study began in 1998, ten years later, after one year of research on forced reefs in 1988. .

However, these forced reefs are deep sea type and soft ground forced reefs that only expand the fishery, and no forced reefs can be attached to the seaweeds that make the sea deforested. In addition, the shape has not yet been diversified into three types such as box type, two-stage box type, and soft ground.

As such, most of the cement, concrete and some types of forced reefs in Korea are unable to satisfy various fish species, marine life and external conditions in the artificial reef industry.

Therefore, the present invention is devised to solve the above problems, the first object of the present invention is to provide a forced reef with an attachment plate with excellent attachment ability so that shellfish and seaweed can be easily attached and formatted. will be.

The second object of the present invention is to provide a forced reef that can be assembled in a narrow place when manufacturing and replace the attachment plate.

The third object of the present invention is to provide a forced reef for making the transportation and dropping of forced reefs simpler and easier.

In order to achieve the first object, the forced reef of the present invention has a frame structure having an inner space by connecting a plurality of forced beams, and installs an attachment plate on the frame structure, wherein the attachment plate is formed of an attachment organism. The surface is formed of a rough surface in order to enhance the adhesion effect.

In order to achieve the second purpose, a welding beam having a separate U-shaped cross-sectional shape is welded to the forced beam, and the attachment plate is inserted into and removed from the coupling beam to replace the attachment plate.

In order to achieve the third purpose, at least one ring is installed on the upper portion of the forced reef, characterized in that the rope is used to hang the loop when the transport and dropping of the forced reef.

1 is a perspective view showing an embodiment of the present invention.

2 is an exploded perspective view showing the attachment plate attachment structure in FIG.

Figure 3 is a perspective view showing another embodiment of the present invention.

4 is a cross-sectional view taken along the line A-A in FIG.

5 is an enlarged view of a portion B in FIG. 3;

Figure 6 is an exploded perspective view showing another embodiment of the mounting plate installation structure of the present invention.

Figure 7 is a perspective view showing another embodiment of the present invention.

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

1: forced beam 2: mounting plate

3: combined beam 10: forced reef

11: forced beam 12: mounting plate

13 connector 13a arm

21: forced beam 21a: fastening hole

22: mounting plate 22a: fastening hole

23: Bolt 24: Nut

41: ring

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

1 is an overall perspective view showing an embodiment of the present invention, the forced reef of the present invention is connected to a plurality of forced beams (1) having a skeleton structure having an internal space, the attachment of the living organism to the skeleton structure The attachment plate 2 for attachment is installed and comprised.

The forced beam (1) is preferably made of steel, in order to install the attachment plate (2) in the forced beam (1) in the present invention, the combined beam (3) having a separate U-shaped cross-sectional shape of the forced beam ( 1) by welding or the like, in which the coupling beam 3 should be installed in the form of └┘ so as to support the left and right side surfaces and the bottom surface of the attachment plate 2, as shown in FIG.

In this way, when the attachment plate 2 is inserted into the combined beam 3 fixed to the forced beam 1 in the form of └┘, the edge of the attachment plate 2 is inserted into the combined beam 3 so that the attachment plate 2 is attached. This stably fixed, the attachment plate (2) is slidingly coupled to the coupling beam (3) and the upper surface is open, so when the attachment plate (2) is lifted upward, the attachment plate (2) is combined beam (3) Deviates from).

The three combined beams 3 are preferably connected by welding in a └┘ shape.

Therefore, the present invention is possible to insert and remove the attachment plate (2) in the coupling beam (3) so that when the replacement of the attachment plate (2) can easily replace the attachment plate (2).

On the other hand, the attachment plate (2) has a rough surface shape in order to enhance the attachment effect of the adherent organism. Therefore, various materials, such as steelmaking slag, concrete, PVC, ceramic, etc., which may roughen the surface when manufacturing the attachment plate 2 may be applied, and the material of the attachment plate 2 is listed above. It is not limited to an example.

In addition, separate concavities and convexities may be formed on the surface of the attachment plate 2 so that attachment organisms are well adhered.

The attachment plate 2 made of the above materials has an effect of increasing its surface area to increase its attachment area and increasing its attachment effect because of its rough surface, thereby increasing its function as a fishery.

3 is a view showing another embodiment of the present invention, using the forced beam 11 having a U-shaped cross section as in the above-described combined beam 3 to form a frame structure of the forced reef. Another embodiment of the present invention as shown in Figures 4 and 5, using a separate connector 13 in connecting each of the forced beam (11).

The connector 13 is installed at a portion to which the plurality of forced beams 11 are connected, and is formed in accordance with an installation angle formed by each of the forced beams 11 while being inserted into the U-shaped inside of the forced beam 11. An arm 13a is provided.

Such a connector 13 can be coupled to each of the forced beams 11 by inserting the arm (13a) in each of the forced beams 11 and then fastened with a bolt and a nut.

The bolt and nut is preferably made of a plastic material, such a structure has the advantage of reducing the corrosion caused by the potential difference caused by welding or bolting.

The connection structure of the forced beam 11 is not limited to the above-described example, and any structure may be applied as long as the forced beam 11 is assembled and disassembled.

Such a forced reef of the present invention is manufactured by fitting the attachment plate 12 to the forced beam 11 and combining the respective forced beams 11, and can be made into a complex structure because of the rich workability.

In addition, the skeleton structure presented as an embodiment in the present invention has a polygonal pyramid shape of the upper portion is cut, but in the present invention does not specify the shape of the skeleton structure, the internal space that is the reproductive space of fish is large and on the seabed Any shape can be used as long as it can be stably placed upon release.

6 is an exploded perspective view showing another embodiment of the mounting plate installation structure of the present invention, the fastening hole 21a for installing the mounting plate 22 in the proper position of the forced beam 21 is formed, A fastening hole 22a is also formed in the attachment plate 22 to face the fastening holes 21a and 22a of the attachment plate 22 and the forced beam 21 to be fastened by using a separate coupling means.

As the coupling means, a conventional bolt 23 and a nut 24 are used.

In this case, the forced beam 21 may be a pipe having a four-sided cross section.

In such a case, since the attachment plate 22 is directly coupled to the surface of the force beam 21 without the need for attaching the attachment plate 22 to the force beam 21, the assembly order of the force beam 21 and the attachment plate 22 is made. free.

7 is a perspective view showing another embodiment of the present invention, the hook 41 is installed on both sides of the upper portion of the forced reef can be used to hang the rope on the hook 41 when lifting and transporting the forced reef Will be.

The forced reef of the present invention is very easy to transport and manufacture because the parts for each part is manufactured in advance in the factory and each part can be easily assembled in the field.

In addition, by using a sacrificial anode method (犧牲 陽) method) to prevent corrosion of the forced beam, by spraying aluminum on the weak part can be greatly prevented corrosion.

Corrosion rate of forced reefs in the sea is 1.35mm for 30 years (Japanese manual reef technical manual: about 60 ~ 70 years), which is much longer than concrete reefs (estimated within 40 years). Therefore, using the above-mentioned method of corrosion of forced reefs, the service life will be longer.

Such a design has a merit that the design freedom is greater than that of concrete, it is easy to manufacture a variety of desired shapes, and facilities can be installed in any sea area.

In addition, the coarse attachment plate and the coarse surface of the attachment to the skeleton structure is large, based on the forgery effect of the adherent organisms and fish is large, so the effect of the forced reef can be maximized and the attachment of the attached organisms can be greatly enhanced.

The present invention aims at the growth of algae that can sufficiently utilize the effect of the attachment plate in the sea where the depth of the water is relatively shallow and can reach the lower layer. This can have a great effect on the fish exile.

In addition, in order to enhance the attachment effect of the attached organisms other than seaweed at deep water, the attachment plate of the present invention can be attached to the deep sea forced reef.

The forced reefs of the present invention can increase the internal space, so that the reproductive space of fish is large and rich in processability, so that it can be made into a complicated structure, and the habitat of the low-level fish can be created.

In addition, it is possible to fabricate in a narrower working space than concrete reef when manufacturing the reef, and can be manufactured in a factory with good quality control, so that the processing member is easy to transport, and no curing period is required after processing. The assembly process can be simplified and the machining process is short.

In addition, since the attachment plate is easily assembled and detached, the seaweeds may fall out of life after a certain period of time, or fall off due to other reasons. Can be brought up to sea to remove unnecessary organisms and then installed back in place.

In addition, it is excellent in affinity with iron or marine attachment organisms, and the engraftment, increase, regeneration and metabolism of adherent organisms that become fish feed early on are also good.

In addition, iron ions eluting from the steel beam surface continue to be supplied as essential nutrients for phytoplankton growth, provide a good plant chain environment and maintain a growth function.

The present invention is to create a sea forest and play a role in the growth of coastal fisheries resources are gradually exhausted by the baekhwa phenomenon.

Claims (7)

Comprising a frame structure having an internal space by connecting a plurality of forced beams, and install the mounting plate on the frame structure, the attachment plate is a forced reef characterized in that the surface roughness by forming irregularities on the surface . The forced reef as claimed in claim 1, wherein the attachment plate or the surface thereof is made of steelmaking slag. The forced reef as claimed in claim 1, wherein the attachment plate or the surface thereof is made of PVC. The forced reef as claimed in claim 1, wherein the attachment plate or the surface thereof is made of ceramic. The forced reef as claimed in claim 1, wherein a welding plate having a separate U-shaped cross-sectional shape is welded to the forced beam and the attachment plate is inserted into and removed from the coupling beam. According to claim 1, Forced reef characterized in that the fastening hole is formed in the forced beam and the mounting plate and fastened by using a coupling means. According to claim 1, Forced reefs characterized in that at least one ring is installed on top of the forced reefs.