KR100368618B1 - Breakwater exchanging seawater - Google Patents

Abstract

The present invention is a breakwater that is constructed to protect ships and various port facilities anchored in the pier of the inland sea while blocking the waves of waves, so that the top of the breakwater can be couched, so that the sofa blocks are static or dense and breakwaters. The lower side of the invention is the structure of the breakwater structure so that the fresh water can be introduced into the inland sea at all times by allowing the seawater to flow freely according to the high or low tide to exchange the seawater and the inland seawater.

Description

Breakwater exchanging seawater

The present invention relates to the construction structure of a breakwater, which is one of the marine structures, and the coast is divided into the outer sea side and the inland sea side based on the breakwater, and the large and small blue waves constantly being pushed from the outer sea side are blocked by the breakwater and the inner sea side. In order to protect the various ships and port facilities anchored in the sea to protect from the blue waves, the breakwaters constructed for this purpose can be classified into the quarry breakwater, the caisson breakwater, or the hybrid breakwater. It is structured so as to be built up from the sea bottom and protrude above sea level.

As the breakwater shields the seawater to the inner sea side and the outer sea side as described above, the water surface of the inner sea side can maintain the constant temperature, but the clean sea water on the outer sea side is congested due to the blocking of the breakwater and stagnant and flows in from the land. In addition, the water quality of the inland sea is deteriorated by joining with the wastewater, and the eutrophication of the seawater becomes more severe as time goes by. The development of breakwaters having a circulating function is an urgent problem.

1 is a partially cutaway perspective view of a seawater exchange breakwater implemented according to the present invention

2 is a cross-sectional view of a seawater exchange breakwater implemented in accordance with the present invention.

FIG. 3 is a front view of the inshore structure viewed from the line AA ′ of FIG. 2;

(Code description of main parts of drawing)

WB. Breakwater 1. Offshore Structure 2. Sea Bottom

3.The foundation stone stage 4,4a.Concrete deck plate 8.

9.Space section 10.Intersection 11.Sofa block

12. Jaw 20. Inland structure

21,21a, 21b, 21c.Concrete wall 22,22a, 22b.Concrete bulkhead

23.Seawater canister 24.Cap concrete

25.Pabong 26.Pagok

The present invention is about the structure of the breakwater (WB) having a function to keep the water quality of the inland sea at all times while the blue sea constantly pushed from the outer sea smoothly becomes a sofa so that the seawater of the outward sea and the inland sea is exchanged As the invention, the breakwater body constructed and implemented according to the present invention is a kind of hybrid breakwater in the form of a breakwater (WB) body separately composed of the outer sea side structure 1 and the inner sea side structure 20, respectively, and the outer sea side Referring to the structure of the structure (1), the outer sea side structure (1) is formed on the upper surface of the bottom of the bottom (2) of the constant height of the base stone foundation 3 is formed horizontally and the top of the base stone foundation (3) of constant thickness The concrete bottom surface 4 is embedded, and concrete pillars 5 of constant height are placed in a plurality of places of the concrete bottom surface 4, and the concrete beams of constant slope are placed on top of the concrete pillars 5). 6) is installed in the transverse direction of the multi-row breakwater (WB) and the groove (8) into which the bottom surface of the multi-row concrete subplate (7) is inserted in the concrete beam (6) spaced apart by a predetermined distance in the direction of the breakwater (WB) sieve. ) Is inserted in a zigzag manner and inserts and installs a plurality of concrete subplates 7 in the grooves 8, and is a fixed unit fixed to the spaces 10 between the concrete subplates 7 and the subplates. Lay out the sofa block 11 static or dangling and protruding the locking jaw (12) to prevent the sofa block 11 from slipping on the front top of the concrete pillars 5 to constitute the structure of the offshore structure 1 The structure of the inner sea side structure 20, which is spoken with the inner sea side of the outer sea side structure 1, is also large in number on the bottom surface 4a of concrete of constant thickness on the upper surface of the main stone foundation (4). ) Uniformly spaced concrete walls 21, 21a, 21b, 21c of About three concrete bulkheads 22, 22a and 22b are placed at the same height as the height of the breakwater and gradually longer from the outer sea side to the inner sea side at the upper part between each wall and the wall. It is formed downward in the longitudinal direction, and a plurality of seawater hydraulic holes 23 are laid on the entire surface of each of the partition walls 22, 22a, and 22b to form the inshore offshore structure 20, thereby forming the inshore offshore structure 20 On the upper surface, the cap concrete 24 is placed on the upper side, and the outer sea side structure 1 and the inner sea side structure 20 are connected to each other in the longitudinal direction of the breakwater to constitute the whole structure of the seawater exchange breakwater WB according to the present invention.

In the figure, reference numeral 25 denotes a blue wave peak and 26 denotes a wave curve.

As described above, the outer sea side structure 20 is addressed to be a breakwater (WB) body, but the sofa block 11 is installed on the upper side of the outer sea side structure (1), so that the sofa block ( 11) The blue waves are bumped by the ledges 10 protruding from the outer circumferential surface to become a sofa, while the sea water is open to the lower part of the outer sea structure 1 and the outer sea structure 20, so that the difference between tides due to high and low tide It is easy to exchange seawater even in areas where there is not much space. Especially, the upper part of the inner sea side structure 20 has three downward lengths of concrete bulkheads 22, 22a, and 22b, which are spaced at a predetermined distance. The blue waves hit the sofa 22 and some of the blue sofas pass completely through the seawater troughs 23. These sofas are attached to the drawing, conceptually shown in FIG. )of As the difference in height decreases, the inner sea side sea surface maintains a constant temperature, while the seawater in the sea below the breakwater (WB) of the present invention moves freely inside and outside the sea without any structural constraints, so the inland sea is always clean It can maintain the constant temperature, and the concrete walls 21, 21a, 21b, 21c are installed inside the inshore sea structure 20, so that the space between the walls and the walls acts as a frequency, A seawater exchange breakwater can be provided that prevents the concentration of waves into one place as part of the inland sea so that seawater can flow into the sea evenly.

Claims (2)

In constructing a breakwater (WB) with a blue sofa and a function to exchange seawater, the breakwater body is constructed by separately providing an outer sea structure (1) and an outer sea structure (20). The structure (1) forms the foundation foundation (3) on the upper surface of the seabed (2), embeds the concrete bottom surface (4) on the top of the foundation stone foundation (3), and has a constant height on the top surface of the concrete bottom surface (4). A plurality of concrete columns (5) are installed, and a plurality of rows of concrete beams (6) are arranged in a row at the top of the concrete column (5), and a plurality of grooves (8) are recessed in the concrete beams (6). Forming and inserting concrete sub-plates (7) and the sofa block (11) is fixed or hanging between the concrete sub-plates (7) and the space between the space (9) is fixed or drip offshore structure (1) Consists of a structure of these outer sea structures (1) and also concrete Water exchange breakwater is hayeoseo address the inland side structure 20 that is to. The method of claim 1, Inner sea side structure 20 is a breakwater (WB) by uniformly spaced a plurality of concrete walls (21) (21a) (21b) (21c) at a predetermined distance on the upper surface of the bottom of the dead stone foundation (3) (4a) Three concrete bulkheads 22, 22a and 22b are formed in the vertical direction of the breakwater (WB) in the upper part between each wall and the wall and gradually longer from the outer sea side to the inner sea side. And a seawater exchange breakwater having a structure in which a plurality of seawater flow holes 23 are laid in a predetermined diameter on the entire surface of each partition wall 22, 22a and 22b.