KR101655080B1 - Sea flow guide type artificial reef - Google Patents

Abstract

The present invention relates to a sea flow guide-type artificial reef. The sea flow guide-type artificial reef forms a homoeothermic region through an obstacle function by means of an artificial reef projecting area and uses gradually decreasing and increasing tubes. Accordingly, even with a low number and a small size thereof, a change is applied to a slipstream of the sea flow guide-type artificial reef, so effects of the sea flow guide-type artificial reef are improved and very advantageous effects are obtained in terms of an environmental aspect and an economical aspect. A conventional artificial reef serves as an obstacle to a non-compressing fluid (seawater) to generate a slipstream and to use principles of simply gathering fish. However, according to the present invention, sea flow guide tubes (gradually decreasing and increasing tubes) are additionally formed in a conventional artificial reef, so a homoeothermic region in which fish stay is formed in a rear side of the artificial reef through an obstacle function by means of an artificial reef projection area. Also, a sea flow is guided by using the gradually decreasing and increasing tubes. Accordingly, even with a low number and a small size thereof, a change is applied to a slipstream of the sea flow guide-type artificial reef, so effects of the sea flow guide-type artificial reef are improved and very advantageous effects are obtained in terms of an environmental aspect and an economical aspect.

Description

SEA FLOW GUIDE TYPE ARTIFICIAL REEF

The present invention relates to an artificial guiding artificial guiding element, and more particularly, to an artificial guiding artificial guiding artificial guiding element which forms a constant temperature region in which fish stay in the back of an artificial guiding element by an obstacle function due to an artificial guiding projection area, Guiding type artificial fish that can obtain a very advantageous effect in terms of environmental aspects and economics while improving the effect of artificial fishes by changing the artificial fishy wake while changing the size and size of the artificial fishes.

In general, artificial reef (artificial reef) is a man-made structure installed in the sea to form a habitat for aquatic creatures such as various fishes and shellfishes. It is used to protect fishing grounds and to raise spawning grounds and refugees of various fishes and shellfishes to nourish fishermen. It is used for submerged sediments to construct structures on the seabed ground and buoys to moor the structures in the sea. It can be largely divided into a type of reed.

The most widely used artificial reefs in various artificial fishes are rectangular artificial reefs, which are formed by using concrete and reinforcing bars. The rectangular artificial reefs are loaded on the barges and transported to the corresponding waters. Then, by using the crane installed on the barge, the artificial fishes are submerged on the seabed ground to form spawning grounds and escapes for fishes and shellfishes.

In terms of fluid mechanics, artificial fishes act as obstacles to slow water flow in the ocean. That is, the larger the size of the artificial fish candle is, the wider the constant temperature region (the region where the water flow is slowed and the fish can stay).

Conventionally, in order to enlarge the constant temperature region, a large number of artificial fish chutes are widely installed on the seabed so that they become heavier and heavier, which increases installation and manufacturing costs.

Korean Patent Laid-Open No. 10-2006-0100753 Korean Patent Publication No. 10-2006-0084838 Korean Patent Publication No. 10-2007-0021294

In order to solve the above-mentioned problems, the present invention forms a constant temperature region in which fishes stay behind the artificial fish with an obstacle function due to an artificial fish supersonic projection area, and efficiently guides the ocean current by using a progressive reduction tube and an expansion tube, The present invention provides an artificial fish guiding artificial fish which can obtain a very advantageous effect in terms of environmental aspect and economical efficiency while improving the effect of artificial fish element by changing the artificial fish second wake with small size and small size.

In order to achieve the above-mentioned object, the present invention provides an artificial fish supporter installed on a seabed ground; And a current guide tube provided on a side surface of the artificial ear body to form a relatively wide temperature range; Wherein the current guiding tube comprises a gradual enlargement tube and a gradual enlargement tube; Wherein the progressively narrowing tube is formed such that the pressure at the outlet side is relatively lower than that at the periphery, the wake is relatively fast due to the characteristics of the seawater viscosity by the low pressure, and the constant temperature region is formed relatively wide, It is composed so that many fish can be collected.

In the gradual expansion tube, the pressure at the outlet side is formed to be relatively higher than that at the periphery, and due to the high pressure, the wake is relatively slowed due to the characteristics of the sea water viscosity, and the relatively constant temperature region is stabilized, So that it can be collapsed.

Wherein the progressive reduction pipe is formed such that the inlet side is relatively larger and larger than the outlet side based on the flow of seawater, the progressively reduced pipe is installed on the base, and the support is provided on the base to fix the progressively reduced pipe, The gradual shrinking tube has a relatively low seawater fluid flow loss and a relatively small pressure.

Wherein the progressive narrowing tube comprises: a first inclined portion formed at an inlet side and having an inclined surface whose diameter gradually decreases; A first horizontal part having a horizontal plane extending from the end of the first inclined part to the outlet side with the same diameter; A second inclined portion extending from an end of the first horizontal portion to an outlet side and having an inclined surface whose diameter gradually decreases; And a second horizontal portion having a horizontal surface extending from the end of the second inclined portion to the outlet side with the same diameter.

The progressive expanding pipe is formed such that the inlet side is relatively narrower and smaller than the outlet side based on the flow of seawater, and the gradual expansion pipe is installed on the base and the support is installed on the base to fix the progressive expansion pipe.

The gradual enlargement tube comprises a third horizontal part formed on the inlet side and having a horizontal plane formed with the same diameter; A third inclined portion extending from an end of the third horizontal portion to an outlet side and having an inclined surface whose diameter gradually increases; A fourth horizontal portion having a horizontal plane extending from the end of the third inclined portion to the outlet side with the same diameter; And a fourth inclined portion extending from an end of the fourth horizontal portion to an outlet side and having an inclined surface whose diameter gradually increases.

As described above, the conventional artificial fish is used as an obstacle to the non-compressible fluid (seawater) to generate a wake so as to merely collect fish on the back or front side of the artificial fish. However, By additionally installing a tube (gradual reduction tube and enlarging tube), it is possible to form a constant temperature zone where fish stay in the back of the artificial fish with an obstacle function by artificial fish supersonic projection area, It is possible to obtain a very advantageous effect in terms of environmental aspect and economics while increasing the effect of the artificial fish by giving a change in the artificial fish second wake while having a small quantity and a small size.

Fig. 1 is a perspective view showing a gradual reduction pipe of a current-guiding artificial artificial fish according to the present invention.
Fig. 2 is a perspective view showing a gradual enlargement pipe of a current artificial guided artificial fish according to the present invention. Fig.
Fig. 3 is a perspective view showing a progressive reduction pipe provided on both sides of the quadrangular-
Fig. 4 is a perspective view showing a progressive reduction pipe installed separately at a position adjacent to the concentrated brim body.
5 is a plan view for explaining the configuration of the progressive reduction pipe
6 is a right side view of Fig. 5
Fig. 7 is a perspective view showing a configuration in which a gradual enlargement tube is separately provided at a position adjacent to the jumbo artificial ear chisel main body.
8 is a plan view for explaining the configuration of the gradual enlargement tube
9 is a right side view of Fig. 8
FIG. 10 (a) is a view showing the experiment aquarium 30 divided into 30 parts in order to observe fish swimming, FIG. 10 (b) (D) is a drawing showing the phenomenon of wicking phenomenon using the gradual enlargement tube of the present invention

Hereinafter, referring to the accompanying drawings, the current-guiding type artificial fish according to the present invention will be described in detail.

FIG. 1 is a perspective view showing a gradual reduction pipe of a current artificial guided artificial fish element according to the present invention, FIG. 2 is a perspective view showing an artificial enlargement pipe of a current artificial guiding artificial fish element according to the present invention, And is a perspective view showing a gradual reduction pipe installed on both sides.

Referring to the above drawings, the current-guided artificial fish candle of the present invention includes an artificial fish candle body 10 installed on a seabed ground.

The artificial ear candy body 10 includes all known rectangular reeds, barbed reeds, semicylindrical reeds, hemispherical reeds, and the like. In other words, the shape of the artificial ear candle body 10 is not limited to the existing artificial ear candle, and can be variously changed.

The current artificial guided artificial fish candle according to the present invention includes a current guiding tube (100, 200) installed at one side of the artificial fish candy body (10). Since the current guide pipes 100 and 200 can be manufactured using waste plastics, they are very useful in resource recycling and environmental friendliness. The position of the current guide pipes 100 and 200 is best provided on both sides of the artificial ear candle body 10, but it may be installed before and after depending on the topography and current direction.

The current guiding tubes 100 and 200 include a gradual reduction tube 100 for forming a relatively wide constant temperature region and a gradual enlargement tube 200 for relatively stably maintaining a constant temperature region.

Herein, the gradual reduction pipe 100 and the gradual expansion pipe 200 have the same shape. In the present invention, the gradual reduction pipe 100 and the gradual expansion pipe 200 may be selectively used or used together. have. The term progressive means that the diameter of the pipe from the inlet side to the outlet side or from the outlet side to the inlet side is not changed abruptly but gradually or stepwise.

As shown in FIG. 1, the progressive reduction pipe 100 is formed such that the inlet side is relatively larger and larger than the outlet side on the basis of the sea water flow (ocean current).

As shown in FIG. 2, the gradual expansion pipe 200 is formed such that the inlet side is relatively narrower and smaller than the outlet side with respect to the flow of seawater.

FIG. 3 is a perspective view in which progressive reduction pipes are installed on both sides of the rectangular artificial fish body, and the progressive reduction pipe 100 may be integrally provided on both sides of the artificial fish body 10.

4 is a perspective view in which a progressive reduction pipe 100 is separately installed at a position adjacent to the concentrated brim body 10 and the progressive reduction pipe 100 is fixed to the upper portion of the base 101 by the support 102 .

The gradual reduction pipe 100 is formed such that the pressure at the outlet side of the progressive reduction pipe 100 is formed relatively lower than the periphery thereof and the wake due to the low pressure of the nature of the sea water viscosity changes the wake around the structure in the advancing fluid flow, (Relatively slower water flow) and relatively larger fish in the constant temperature region (蝟 集: crowded objects like hedgehog furrows together at a time) , Which means a lot of fish).

The gradual reduction pipe (100) is formed to have a relatively short current flow, a relatively small fluid flow loss, and a relatively small pressure. This can be easily confirmed from the Bernoulli theorem, which explains that the flow velocity and the pressure are inversely proportional. Since Bernoulli's theorem is generally known in fluid mechanics, a detailed description of Bernoulli's theorem is omitted.

For reference, the kinds of water flow in the constant temperature region are laminar flow, lower limit flow velocity, low flow velocity, vortex flow, and the artificial fish flow is installed at a flow rate of 0.5-0.6 m / sec. The tube affects the wake, resulting in a relatively slow flow (low flow rate), which increases the effect of damage.

5, the progressive reduction pipe 100 includes a first inclined portion 110 formed at the inlet side and having an inclined surface 111 whose diameter gradually decreases, ; A first horizontal part 120 having a horizontal surface 121 extending from the end of the first inclined part 110 to the outlet side with the same diameter; A second inclined portion 130 extending from an end of the first horizontal portion 120 to an outlet side and having an inclined surface 131 whose diameter gradually decreases; And a second horizontal part 140 having a horizontal surface extending from the end of the second inclined part 130 to the outlet side with the same diameter.

The seawater is sequentially introduced through the first inclined portion 110 and then proceeds through the first horizontal portion 120 and the second inclined portion 130. Since the diameter of the progressive reduction pipe 100 is narrowed and reduced The flow rate of the current is gradually increased and is configured to be discharged while being guided through the second horizontal portion 140.

7 shows a configuration in which a gradual enlargement tube is separately provided at a position adjacent to the jumbo artificial ear candle body 10. [ The graduated magnifying tube 200 shown in FIG. 7 is installed on the base 201 and the support 202 is installed on the base 201 to fix the gradual magnifying tube 200.

Fig. 8 is a plan view for explaining the configuration of the gradual enlargement tube, and Fig. 9 is a right side view of Fig.

8 and 9, the gradual expansion tube 200 is formed such that the pressure at the outlet of the gradual expansion tube 200 is relatively higher than the circumference, and the wake is relatively slow due to the high pressure of the seawater , It is configured to relatively stabilize the constant temperature region and to relatively catch a large number of fish in the constant temperature region.

The gradual enlargement tube 200 has a slow current flow and a relatively large pressure. This can be seen in the Bernoulli theorem, where the flow rate and pressure are inversely proportional.

Referring to FIG. 8, the progressive magnifying tube 200 includes a third horizontal part 210 formed on the inlet side and having a horizontal surface formed with the same diameter; A third inclined portion 220 extending from an end of the third horizontal portion 210 to an outlet side and having an inclined surface 221 whose diameter gradually increases; A fourth horizontal part 230 having a horizontal plane 231 extending from the end of the third inclined part 220 to the outlet side with the same diameter; And a fourth inclined portion 240 extending from an end of the fourth horizontal portion 230 to an outlet side and having an inclined surface 241 whose diameter gradually increases.

The seawater is sequentially introduced through the third horizontal portion 210 and then proceeds through the third inclined portion 220 and the fourth horizontal portion 230. Since the diameter of the gradual enlargement tube 200 is increased and increased The flow rate of the current gradually decreases and is configured to be guided and discharged through the fourth inclined portion 240.

As described above, the feature of the present invention is that when the gradual reduction pipe is installed at the same time as when only the artificial fish is installed, the swimming of the fishes becomes slower and the swimming area becomes wider (the expansion of the constant temperature region) The pressure at the exit of the miniature tube activates (develops) the wake due to the viscous internal friction and is the result of this phenomenon. In addition, the gradual expansion tube also changes the high pressure of the outlet to the low flow rate, so the fish gather in the wake, and the swimming is slowed down. The fish, like the hedgehog hair, A lot of meetings).

<Examples>

10 (a) to 10 (d) are comparative experiments comparing the artificial ear candles of the present invention and artificial ear candles of the present invention.

FIG. 10 (a) is a view showing the experiment aquarium 30 divided into 30 parts in order to observe fish swimming, FIG. 10 (b) (D) is a diagram showing the phenomenon of wicking phenomenon using the gradual enlargement tube of the present invention.

As shown in Fig. 10 (a), in order to observe the swimming of the fish, the experimental aquarium was divided into 30 equal sections and given a segment number. Current flows from right to left.

Fig. 10 (b) shows the wicking phenomenon using the conventional artificial fish candle, and it can be confirmed that fish are collected in the segment numbers 16, 21, 23, 25 and 26 as well as the conventional artificial fish second segment 28 .

In contrast, FIG. 10 (c) shows the phenomenon of wicking using the progressive reduction pipe of the present invention. As shown in FIG. 10 (c), many fish are gathered in compartment numbers 12, 13, 22, 1 and 4, respectively. This is because the gradual reduction pipe 100 is formed such that the pressure at the outlet side of the gradual reduction pipe 100 is formed relatively lower than the circumference and due to the characteristics of the sea water viscosity due to the lower pressure, (The area where the water flow is slowed down and the fish can stay in the area) is relatively wide, and relatively large number of fish are caught in the constant temperature region (蝟 集: objects such as hedgehog fur are cumbersome Which means gathering a lot of fish).

10 (d) shows the phenomenon of wicking using the gradual enlargement tube of the present invention. As a result, it was confirmed that there were relatively more fish catching compartments in the compartment numbers 12, 21, 22, 23, and 24 behind the artificial fish body . This is because the gradual expansion pipe 200 is formed such that the pressure at the outlet side is relatively higher than that at the periphery, the wake is relatively slow due to the nature of the seawater viscosity by the high pressure, and the stabilization zone is relatively stabilized, I could confirm that I could catch more fish.

As described above, the conventional artificial fish is used as an obstacle to the non-compressible fluid (seawater) to generate a wake and merely collects fish. However, the present invention is applicable to a conventional artificial fish It is also possible to use the gradual reduction tube and the enlarging tube to reduce the water quantity and the size of the artificial fish, It is possible to obtain a very advantageous effect in terms of environmental and economic aspects.

100: gradual reduction pipe
101: Base
102: Support
110: first inclined portion
111:
120: first horizontal part
121:
130: second inclined portion
131: sloped surface
140: second horizontal part
200: gradual expansion pipe
201: Base
202: Support
210: a third horizontal part
220: third inclined portion
221: slope
230: fourth horizontal part
231:
240: fourth inclined portion
241:

Claims (5)

An artificial fish body 10 installed on a seabed ground; And
And a current guide tube (100, 200) installed on a side surface of the artificial fish body (10) to form a constant temperature region relatively wide,
Wherein the current guiding tube includes a progressive reduction tube and an incremental expansion tube and wherein the progressive reduction tube and the progressive expansion tube are installed on a base, , A support 202 is installed to fix the progressive reduction pipe 100 and the progressive expansion pipe 200,
The progressive reduction pipe (100) is formed such that the inlet side is relatively larger and larger than the outlet side based on the flow of seawater.
A first inclined portion 110 formed at the entrance side and having an inclined surface 111 whose diameter gradually decreases;
A first horizontal part 120 having a horizontal surface 121 extending from the end of the first inclined part 110 to the outlet side with the same diameter;
A second inclined portion 130 extending from an end of the first horizontal portion 120 to an outlet side and having an inclined surface 131 whose diameter gradually decreases; And
And a second horizontal part (140) having a horizontal surface extending from the end of the second inclined part (130) to the outlet side with the same diameter,
The progressive expanding pipe 200 is formed such that the inlet side is relatively narrower and smaller than the outlet side with respect to the flow of seawater,
A third horizontal part 210 formed on the entrance side and having a horizontal surface formed with the same diameter;
A third inclined portion 220 extending from an end of the third horizontal portion 210 to an outlet side and having an inclined surface 221 whose diameter gradually increases;
A fourth horizontal part 230 having a horizontal plane 231 extending from the end of the third inclined part 220 to the outlet side with the same diameter; And
And a fourth inclined portion (240) extending from an end of the fourth horizontal portion (230) to an outlet side and having an inclined surface (241) whose diameter gradually increases.
delete delete delete delete

Images