KR20060023035A - Wave deflection type breakwater and construction method thereof - Google Patents

Abstract

The present invention relates to an entry wave refraction type breakwater and a construction method thereof, wherein the wave vertical motion component is transformed into a horizontal motion component by a plurality of refraction plates to be discharged to the lower surface of the water surface.

According to the present invention, a flat plate which is sandwiched by the pile 10 while being spaced apart by the spacer member 34 and the pile 10 to penetrate the gravel layer or hard soil 3 through the soft layer 1 of the seabed, is laminated. A pile 30 and a pile insertion hole 23 aligned with the pile insertion hole 33 of the flat plate 32 are formed, and an inclined or curved refractive plate 24 is formed therein to form the pile 8. Provided is an entry wave refractory breakwater comprising an articulated caisson 20 mounted on top of the plate laminate 30 and a construction method thereof.

Description

Entry wave refraction type breakwater and construction method {Wave deflection type breakwater and construction method             

1 is a construction diagram of a conventional breakwater

Figure 2 is a schematic construction state of the breakwater according to an embodiment of the present invention

3 is an exemplary configuration diagram of the refraction caisson of the embodiment of the present invention

4 is an exemplary configuration diagram of a laminated plate of an embodiment of the present invention

5 is a construction of the pile according to an embodiment of the present invention

<Description of the symbols for the main parts of the drawings>

 1. Soft layer 3. Hard ground

 4. caisson 6. mound mound

10. Pile 11.Hollow Section

17. Bulb 20. Articulated caisson

23. Pile Inserter 24. Refractive Plate

28. Openings 29. Openings

30. Flat plate laminate 32. Flat plate

33. Pile insertion hole 34. Spacing member

The present invention relates to an entry wave refraction type breakwater and a construction method thereof, and more specifically, by transforming the vertical motion component of the incoming wave into a horizontal motion component with a plurality of refracting plates and discharging it to the lower surface of the water surface. Minimizes the components, and the remaining horizontal motion components are dissipated at a short distance by water resistance, effectively reducing the pressure of the waves, and easy to install even in the deep water or the deep layer, and low construction and maintenance cost. The present invention relates to a new structure of entry wave refractory breakwater and its construction method.

When breakwaters are constructed in coastal areas having a deep water depth or a deep soft layer, as shown in FIG. 1, in general, the soft layer 1 is dredged and replaced (5), or a sand compaction pile method or other After improving the soft ground by the method, after installing a sandstone mound (6) protected by a large covering stone on it, a sand-filled concrete caisson (4) is installed, or a sandstone coated with a heavy release block. The method of installing the decanter was used. By the way, these methods are complicated and the construction cost is very high and time-consuming, and also the maintenance cost after construction is very expensive because the improvement results of the soft ground is uncertain. In addition, this construction method causes significant environmental pollution during dredging and ground improvement of the weak layer (1).

The present invention has been proposed in view of the problems caused by the conventional construction of breakwater as described above, by transforming the vertical motion component of the incoming wave into a horizontal motion component by a plurality of refracting plate to discharge to the bottom of the purified surface, vertical in the harbor Minimizes the movement component, and the remaining horizontal movement component dissipates at a short distance by water resistance, effectively reducing the pressure of the waves, and easy to install even in the deep water or the deep layer. It is an object of the present invention to provide an inexpensive new wave type breakwater and construction method thereof.

According to the present invention, a plurality of concrete plates or piles of steel or concrete piles (10) and pile insertion holes (33) are vertically installed to penetrate through the soft layer (1) of the seabed and reach the gravel layer or hard bed (3). The plate stacking body 30 is inserted into the pile 10 while being spaced apart by the spacer 34, and the pile inserting hole aligned with the pile inserting hole 33 of the flat plate 32. 23 is formed and an inclined or curved refracting plate 24 is formed therein and includes a refraction caisson 20 mounted on the pile 8 to be installed on the top of the flat plate stack 30. Openings 28 and 29 are formed in the front and bottom or bottom of the caisson 20 so that waves entering from the front of the refraction caisson 20 are refracted downward by the refraction plate 24. Type breakwaters are provided.

According to another feature of the invention, the spacing member 34 is provided integrally with the flat plate 32 is provided an entry wave refractory breakwater, characterized in that formed in the form of a short column protruding to the upper surface of the flat plate (32). do.

According to another feature of the present invention, the pile insertion hole 33 is provided with an entry wave refracted breakwater, characterized in that the through-hole formed in the spacing member (34).

According to another feature of the invention, the pile 10 is a hollow pile having a hollow portion 11 formed therein, the hollow portion 11 is filled with concrete 13 and the reinforcement 12 or steel is inserted An entry wave refractory breakwater is provided.

According to another feature of the present invention, a screw layer 36 is formed around the hollow portion 11 of the steel or concrete pile 10, and the fabric mill is formed with a telescopic expansion bit 37 formed at the front end of the soft layer. After installing the pile 10 through the gravel layer 2 or the hard plate 3 through the (1), a plurality of concrete flat plates 32 to be spaced apart by the spacer member 34, the pile 10 The refraction caisson in which the plate stack 30 is formed by penetrating through and formed thereon, on which an inclined or curved refraction plate 24 is formed, and openings 28 and 29 are formed in the lower part of the front and bottom surfaces or the rear surface thereof. Provided is a construction method of an entry wave refracted breakwater, characterized in that 20 is penetrated by the pile (8).

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. 2 is a construction state of the breakwater according to the present invention, Figures 3 and 4 shows the refraction caisson 20 and the flat plate laminate 30, respectively, Figure 5 shows the construction state of the pile. As shown, according to the present invention, by drilling the pile 10 through the soft layer (1) and the gravel stone layer (2) of the seabed to install the breakwater to reach the hard soil (3). At this time, the pile 10 preferably uses a pretension-type centrifugal force high strength concrete pile or a steel pile, in which the hollow part 11 is formed therein, and beats the pile 10 by hitting the pile 10 according to the condition of the ground. In addition, by inserting a separate punching device 15 through the hollow portion 11 of the pile 10, the pile 10 can be lowered while digging the ground.

Then, in order to increase the bearing capacity, by placing concrete 13 in the hollow portion 11 of the pile 10 and compacting it with a hammer, a concrete bulb 17 is formed at the tip of the pile 10 as necessary. , The ground area of the pile 10 is increased. In addition, depending on design conditions, the hollow part 11 may reinforce the bending moment of the pile by inserting the reinforcing steel 12, steel or anchor wire. Figure 5 shows the process of installing the concrete pile (10) for the construction of the breakwater of the present invention, as shown, using the drilling device 15 to lower the hollow pile (10). At this time, the drilling device 15 is preferably a pile 10 while digging the ground using an August screw-type cloth mill with a screw blade 36 mounted on the circumference of the shaft and having a telescopic extension bit 37 at the distal end. Down). Then, the concrete part 13 is poured into the hollow part 11 inside the pile 10 and compacted with a hammer, and a bulb 17 is formed at the tip of the pile as necessary. 5 illustrates a concrete pile, the steel pile may be installed in the same manner.

When the pile 10 is installed at predetermined intervals as described above, the pile inserting hole 33 according to the present invention is formed thereon, and the concrete plate 32 on which the spacer member 34 is installed upright is placed on the pile 10. Inserted to form a flat plate laminated body 30 of a predetermined height. The height of the flat plate stack 30 is to approximate to the bottom of the water surface. In the preferred embodiment shown, the spacer member 34 is integrally molded to the flat plate 32, and the pile insertion hole 33 is formed by vertically penetrating the spacer member 34 in the form of a short column. However, the spacing member 34 may not only be integrated with the flat plate 32, but may be installed separately. In addition, although the pile insertion hole 33 is illustrated as being formed in the spacer member 34, the pile insertion hole 33 may be formed in a separate position instead of the spacer member 34. In addition, the spacer 34 is shown in the form of a short column, but is not limited to this form, the wall shape or the like formed with an appropriate opening so as to space the passage of water between the upper and lower plates 32 and to block the flow of water. It is possible if the structure of the appropriate shape.

As described above, a box-shaped refractive caisson 20 according to the present invention is inserted into the pile 8 at the upper end of the plate stack 30 in which a plurality of plates 32 are stacked. The refraction caisson 20 has openings 28 and 29 formed at the front and bottom thereof, and a plurality of refraction plates 24 in the form of inclined plates or curved plates are formed inside the refraction caisson 20. A plurality of pile insertion holes 23 penetrating the pile 10 are formed. The refraction caisson 20 forms an upper structure of the breakwater, when the wave is pushed, the wave is introduced into the front opening portion 28 of the refraction caisson 20 and the direction is refracted downward by the refraction plate 24 It flows out into the inner port of the breakwater through the opening part 29 of the lower back side. In the illustrated embodiment, the opening 29 is formed at the bottom of the rear surface of the refraction caisson 20 as the outlet of the wave, but this outlet may be formed at the bottom of the wave in some cases.

According to this breakwater structure, the incoming wave is refracted downward in the refraction caisson 20 so that the vertical motion component of the wave is blocked by the refracting plate 24 to be removed or transformed into a horizontal motion component. Refracted downward, the force is drastically weakened, and then exits into the port through a horizontal outlet formed between the plate stacks 30 and is immediately extinguished by water resistance. Unlike the conventional breakwater that resists waves with its own weight, this structure refractes the progress of the waves, so that the resistance of the waves is drastically reduced as the weakened horizontal component is passed. Even if it can function effectively.

According to the present invention described above, unlike the breakwater that conventionally resists the pressure of the wave by its own gravity, the refraction plate 24 is installed inside the upper surface of the flat plate stack 3 through which water can flow. By allowing the refraction caisson 20 to resist the waves, the vertical motion component of the entered wave is almost completely blocked by the refracting plate 24 or turned into a horizontal motion component and attenuated, and the horizontal motion component is refracted by the refracting plate 24. It is refracted downward by the water and discharged through a horizontal outlet between the laminated flat bodies 30 and disappears over a short distance by the resistance of the water, so that the wave pressure can be effectively attenuated, thus making it a relatively small breakwater. Good breakwater facilities can be built.

Particularly, according to the present invention, the flat laminate 30 and the refraction caisson 20 are inserted into a steel or concrete pile 10 penetrated to the soft ground to be laminated, thereby improving or dredging the soft ground. Significant construction costs and environmental pollution in substitution can be avoided, so that economical and rapid construction is possible even in a seabed with a weak layer. In addition, since there is no need to improve the soft ground, there is little pollution during construction, and the maintenance cost after construction is also low.

Claims (5)

A plurality of concrete plates (32) formed with a plurality of steel or concrete piles (10) and pile insertion holes (33) vertically installed to penetrate the gravel layer (2) or hard soil (3) through the soft layer (1) of the seabed. ) Is spaced apart by the spacer member 34, the plate laminated body 30 and the pile insertion hole 23 is formed to be stacked in the pile 10, the inclined or curved refracting plate 24 is formed therein And a refractive caisson 20 formed at the upper end of the flat plate stack 30 by being inserted into the pile 8 and having openings 28 and 29 at the front and bottom surfaces or lower surfaces of the refractive caisson 20. ) Is formed so that the wave entering from the front of the refraction caisson 20 is refracted by the refracting plate 24, characterized in that the entry wave refractory breakwater. The breakwater type refractory wave breaker of claim 1, wherein the spacer member 34 is integrally formed with the flat plate 32 and is formed in a short column shape protruding to an upper surface of the flat plate 32. The entry wave refraction type breakwater according to claim 1 or 2, wherein the pile insertion hole (33) is formed through the gap member (34). The method according to claim 1 or 2, wherein the pile 10 is a hollow pile having a hollow portion 11 formed therein, the hollow portion 11 is filled with concrete (13) and the reinforcing bars 12 or steel Entry wave refractory breakwater, characterized in that inserted. A screw blade 36 is formed around the hollow portion 11 of the steel or concrete pile 10 and a fabric mill having a telescopic extension bit 37 is formed at the tip thereof to penetrate the soft layer 1, and the gravel layer 2 Or after installing the pile 10 through the hard disk 3, a plurality of concrete plates 32 are laminated by penetrating the pile 10 so as to be spaced apart by the spacer 34. 30, and the refraction caisson 20 having the inclined or curved refraction plate 24 formed thereon and the openings 28 and 29 formed in the lower part of the front and the bottom or the rear surface thereof. A construction method of an entry wave refractory breakwater, characterized in that it is installed through the through.

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