KR101131879B1 - Floating type breakwater using artificial water grass - Google Patents

Abstract

PURPOSE: A floating breakwater using an artificial reef is provided to stabilize the installation of a pontoon by maintaining the tensed state of a cable which fixes the pontoon even if a water level is changed. CONSTITUTION: A floating breakwater using artificial reef comprises a pontoon(10), fixing anchors, cables, and artificial reef(40). The pontoon floats on the water. The fixing anchors are fixed to the seafloor. The cables connect the fixing anchors to the pontoon. The artificial reef is formed on the bottom surface(10a) of the pontoon toward the seafloor.

Description

Floating breakwater using artificial water plants {Floating type breakwater using artificial water grass}

The present invention is equipped with artificial plants (including seaweed) and then installed a number of artificial plants on the lower surface of the load to be connected to one or several to form a floating breakwater using artificial plants that were arranged in a long line straight form It relates to a floating breakwater.

In general, breakwaters are harbor structures designed to keep the safety of ships anchored in various facilities and harbors by maintaining the calmness of the sea level in the ports by blocking the ingress of blue waves that constantly push in from the sea. When selecting a breakwater suitable for a specific port, the construction position of the breakwater, the maximum wave size, the ground conditions, and the construction method are selected.

The types of breakwater can be divided into gravity type (fixed) breakwater and floating breakwater. Gravity breakwater is a type of diaphragm that builds up a levee from the seabed by digging concrete structures or rocks into the ocean. It is a breakwater that aligns to the floating structure to act as a breakwater.

Gravity breakwaters have the advantage of effectively preventing the waves from entering the sea, but when constructing on soft grounds, additional construction is needed to reinforce the grounds, which has the disadvantage of long cost and air. It also has the disadvantage that construction is very difficult. In addition, in general, gravity breakwater has a problem of causing environmental pollution, such as high construction cost and long construction period, which is uneconomical and deteriorates the water quality of the inner port due to blocking of seawater circulation between the inner and outer ports. Moreover, due to the breakwater structure, the ship's visibility is insecure and there is a problem of blocking the view of the port.

In order to overcome the disadvantages of gravity breakwater, floating breakwater was introduced by connecting one or more loads made of steel or concrete to the hollow type, and since the breakwater is configured to float on the sea, seawater is usually freely below the breakwater. By being able to go in and out, it is a very environmentally friendly structure.

One example of a floating breakwater is shown in FIG. 1, which is a floating breakwater disclosed in Korean Patent No. 10-0699274. The breakwater shown in FIG. 1 is the base block 10, a pair of breakwaters 20 and 20a axially coupled to the left and right sides of the base block 10, respectively, and floated according to the water level, and a pair of breakwaters 20 and 20a. Is composed of a square caisson 30 to prevent the collision with each other.

However, in the case of the floating breakwater shown in Figure 1 can be made smoothly while the seawater distribution can not prevent the wave incident under the sea level there is a problem that the breakwater function falls.

In addition, Figure 2 shows another example of a floating breakwater is a floating breakwater disclosed in Korean Patent Laid-Open No. 10-2005-0045575. The breakwater shown in FIG. 2 is composed of a float (1) and a flexible membrane (2) provided at the bottom of the float (1), a pile (P) inserted into the ground (G), and the cable (C) and pile ( The floating body 1 is moored by the flexible membrane 2 connected to P), and the floating body 1 serves as a breakwater.

However, the floating breakwater shown in FIG. 2 has an advantage to attenuate the wave energy incident below the sea surface by the vertical flexible membrane provided at the bottom of the floating body, but blocks the seawater distribution by the flexible membrane, such as a gravity breakwater. There is a problem that causes environmental pollution, such as deterioration of the water quality of the inner port due to blocked sea circulation of the inner and outer ports.

The present invention has been made in order to solve this problem, and has a floating buoyant consisting of a buoy floating on the water surface, a fixing anchor installed on the sea bottom, and a cable connecting the buoy and the fixing anchor, but Artificial water plants (including seaweeds) provided in the form of sea coastal plants such as jaalpi are installed on the lower surface of the water so that a large number of artificial water plants can be arranged in a long line directly below, so that the sea water can be easily distributed by the water plants under the sea surface. It is to provide floating breakwaters using artificial seaweeds that can reduce the incident wave energy and protect fish stocks by providing habitat and spawning places for fish.

In addition, the present invention is to provide a variable cable to ensure that the load is securely installed so that the cable for fixing the load at all times even when the water level changes.

The present invention is buoyant to float on the water surface, a fixing anchor is installed on the sea bottom, a cable connecting the buoy and the fixing anchor, and a plurality of forms in the form of hanging on the lower surface of the buoy is installed in the sea bottom It is characterized by a floating breakwater using artificial plants, including artificial plants that are arranged in a long line.

The artificial aquatic plants further include those provided in the form of seaweeds, such as jaalpi, corresponding to flagpole species, as marine plants,

Or fixedly installing the upper end of the artificial plant by using a fixing member on the lower surface of the load,

The lower surface of the load is provided with a rotating shaft portion is fixed to the upper end of the artificial water plants in the rotating shaft portion is characterized in that the artificial water plants can flow by the rotating shaft portion.

In addition, the artificial aquatic plants are provided with a wide width of the width in the direction in which the seawater underneath the load proceeds, and provided with a small width of the narrow width in the lateral direction,

The broad surface of the artificial myelin sheath is characterized in that it is provided with a plurality of incision grooves in the longitudinal side.

In addition, the upper portion of the cable is installed in the cable connection portion of the load guide cable to the cable connecting portion is provided to guide the cable and then the upper end of the cable is characterized in that the configuration is connected to the weight for maintaining the tension.

Floating breakwater using artificial aquatic plants of the present invention is a wave wave of blue waves pushed from the outside sea is crushed by hitting the load, the blue energy delivered to the sea level of the load is the wave energy by the artificial plants installed on the lower surface of the load In addition, it is possible to protect the fish stocks by providing the habitat and spawning place of fish by artificial water plants.

In addition, the present invention has the effect that it is possible to maintain a stable installation state of the load to ensure that the cable is always kept taut even when the water level is changed by the variable cable.

1 is a side cross-sectional view showing a configuration embodiment according to a conventional floating breakwater.
Figure 2 is a side cross-sectional view showing another configuration embodiment according to the conventional floating breakwater
Figure 3 is an exemplary state of operation of the wave energy is delivered to the bottom of the sea surface by a conventional floating breakwater.
Figure 4 is a perspective view illustrating an artificial myelin arrangement of the floating breakwater using the artificial myelin sheath of the present invention.
Figure 5 is a side view illustrating the installation state of the floating breakwater using artificial water plants of the present invention.
Figure 6 is an exemplary state of action to attenuate the wave energy in the lower sea level according to the floating breakwater using artificial water plants of the present invention.
Figure 7 is a side view showing a fixed state of the artificial myelin sheath according to the floating breakwater using the artificial myelin sheath of the present invention.
8 is a side view illustrating a state in which an upper end portion of an artificial water plant according to a floating breakwater using an artificial water plant of the present invention is installed on a rotating shaft;
Figure 9 is an illustration of a front view showing an embodiment of a wide surface configuration of artificial aquatic plants according to the floating breakwater using the artificial plants of the present invention.
Figure 10 is a front view showing a configuration example having a cutting groove in the wide surface of the artificial aquatic plants according to the floating breakwater using the artificial myelin sheath of the present invention.
11 is a configuration embodiment having a variable cable according to the floating breakwater using an artificial myelin sheath of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Floating breakwater using artificial water plants of the present invention, the buoy 10 is connected to one or several to float on the surface, and provided with a weight or the like anchoring anchor 30 is fixed to the bottom of the sea and And, having a floating breakwater consisting of a cable 20 connecting the buoy 10 and the fixing anchor 30 is installed in the form of hanging on the bottom surface (10a) of the buoy 10 and lined long below the sea surface It is characterized in that a large number of artificial aquatic plants 40 of a predetermined length are arranged.

The buoy 10 is provided with a steel or concrete in a hollow form to be floating on the water surface, such a buoy 10 is made to be floating in a state of approximately 20% submerged in the water surface.

Using the fixing member 44 such as a bolt on the lower surface 10a of the load 10, the upper end of the artificial aquatic plant 40 is fixedly installed, or the rotary shaft 46 is attached to the lower surface of the load 10. It is provided that the upper end of the artificial aquatic plant 40 is fixed to the rotating shaft portion 46 to increase the fluidity of the artificial aquatic plant 40 by the rotating shaft portion 46 is a matter of course.

And the artificial aquatic plants 40 are randomly arranged on the lower surface 10a of the load 10, but the artificial aquatic plants 40 are densely arranged or spaced at a predetermined interval depending on the place or characteristics of the floating breakwater. Of course, it can be arranged.

The artificial aquatic plant 40 is provided using a synthetic resin, etc., but is most preferably provided as a sea coastal plant in the form of seaweed, such as zalpi, corresponding to the flagpole species. It is inhabited by the southern coast. It has a broad leaf and a clear leaf, stem, and root tissue of a certain length. In addition, the artificial aquatic plant 40 of the present invention is provided with all the myelin (algae) form of the stem can be applied of course.

In addition, the artificial aquatic plant 40 is made of a circular or square, and variously provided to maintain the elongated form, but is provided with a wide wide surface 41 in the direction of the seawater under the load 10 And it is preferable to increase the attenuation efficiency of the blue energy delivered to the sea surface by the wide surface 41 by installing an artificial water plants 40 of the narrow width 42 narrow in the lateral direction, the wide surface A plurality of cutting grooves 41a are provided at the longitudinal side of the 41 to increase the adhesion of seaweeds through the cutting grooves 41a.

The upper part of the cable 20 is installed in the cable connection portion 12 provided in the four corners of the box 10, the lower end is fixed to the fixing anchor 30 is provided with the cable 20 is loosely connected The load 10 can be lifted according to the water level.

In addition, as another embodiment of the present invention, provided with a variable cable 20, but provided with a guide roll 14 in the cable connection portion 12 of the load 10 to guide the cable 20 and then the cable ( 20) the upper end of the tension holding weight (22) is connected to the configuration that the cable 20 for fixing the load (10) by the tension holding weight 22 can always be kept tight even when the water level changes. It is preferable that the load 10 has a lifting displacement and no positional change in the horizontal direction (lateral direction).

The variable cable 20 has an absolute distance between the fixing anchor 30 and the guide roll 14 connecting one end of the cable 20 when the load 10 is lowered while the water level is lowered. When the point is about to be in a loose state, the tension-bearing weights 22 are pulled down by the weight while the cable 20 is pulled to support the load 10 by the cable 20. When the load 10 rises as the water level rises, the absolute distance between the fixing anchor 30 and the guide roll 14 connecting one end of the cable 20 is fixed while the cable 20 is fixed. Pulling in the direction of the anchor (30) acts as the tension holding weight (22) to rise by the weight so that the load (10) of the load (10) to the cable (20) to the cable (20) Tightly support.

When described in detail by the accompanying drawings an embodiment according to the floating breakwater using the artificial water plants of the present invention as follows.

The breakwater of the present invention blocks the ingress of blue waves constantly pushed from the open sea to maintain the calmness of the sea level in the harbor and to ensure that various facilities in the harbor or ships anchored safely, but the breakwater is configured to float on the sea seawater breakwater It is a floating breakwater that can be freely moved down.

Floating breakwater of the present invention is provided with a steel or concrete buoy 10 to enable the floating in the water surface is provided with a breakwater connected to one or several, the water wave of blue waves coming from the open sea to the load (10) The blue energy transmitted deeply below the sea surface by the blue waves flowing in the vertical direction due to the crushing action hit by the load 10 and the impact of the load 10 is suspended in the bottom surface 10a of the load 10. The energy of the blue is attenuated by the action of hitting the artificial aquatic plants 40 arranged in a predetermined length in the form of long lines arranged below the sea surface.

That is, the present invention is made while the seawater distribution is easily made through the space between the artificial aquatic plant 40 and the artificial aquatic plant 40 and the bottom surface installed in a certain length on the lower surface (10a) of the buoy 10 In addition to acting to attenuate the wave energy transmitted to the bottom of the sea surface located in the lower portion of (10) a number of artificial aquatic plants 40 will provide a habitat and spawning place of fish.

In addition, the water level is changed by the tension holding weight 22 when using the configuration in which the tension holding weight 22 is connected to the upper end of the cable 20 for fixing the load 10 of the present invention It is possible to maintain a stable installation state without changing the position in the horizontal direction (lateral direction) while acting to lift the load 10 up and down by always maintaining the tension in the situation.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: Load 10a: Lower surface
12: connection portion 14: guide roller
20 Cable 22 Tension Weight Weight
30: anchor anchor 40: artificial water plants
41: wide surface 41a: incision groove
42: narrow surface 44: fixing member
46: shaft portion

Claims (7)

A load to keep you afloat,
A fixing anchor installed at the bottom of the sea,
A cable connecting the load and the anchor for fixing,
It is made by including a number of artificial plants that are installed in the form of hanging on the lower surface of the load and arranged in a long line form below the sea surface,
The upper part of the cable is installed in the cable connection portion of the load, but the guide connection to the cable connecting portion to guide the cable, and then the upper end of the cable is suspended using artificial water plants, characterized in that the configuration is connected to the weight for maintaining the tension Formula breakwater.
The method of claim 1,
The artificial aquatic plant is a floating breakwater using an artificial aquatic plant, characterized in that it further comprises that it is provided in the form of seaweed, such as jaalpi corresponding to flagpole species as a marine coastal plant.
The method of claim 1,
Floating breakwater using artificial aquatic plants, characterized in that by fixing the upper end of the artificial aquatic plants integrally using a fixing member on the lower surface of the load.
The method of claim 1,
Floating breakwater using an artificial myelin sheath provided with a rotating shaft portion on the lower surface of the load to be fixed to the upper end portion of the artificial water plants on the rotating shaft portion to allow the artificial water plants to flow by the rotating shaft portion.
The method of claim 1,
The artificial aquatic plant is a floating breakwater using artificial aquatic plants, characterized in that it is provided with a wide wide surface in the direction in which the seawater under the load proceeds and a narrow width in the lateral direction.
6. The method of claim 5,
The wide surface of the artificial aquatic floating breakwater using an artificial aquatic plant, characterized in that a plurality of incision grooves are provided in the longitudinal side.
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