KR200333399Y1 - Rebuilding structure of breakwater that have seawater exchange function - Google Patents

Abstract

The present invention is about the structure of the breakwater, and most of the existing breakwaters are built only for the purpose of preventing blue waves and maintaining the quietness of the port. As the water quality is deteriorating, the present invention minimizes the scope of dismantling of existing breakwater bodies and maximizes the inflow of clean seawater by equally remodeling all the breakwaters using the seawater inlet pipe, and the construction is relatively simple and inexpensive. It is devised for the remodeling structure of the breakwater that has a seawater exchange function that requires a short period of time.

Description

Rebuilding structure of breakwater that have seawater exchange function

The present invention is to partially reconstruct a conventional hybrid breakwater, and to reconstruct the structure of the breakwater having a seawater exchange function to allow the clean seawater of the open sea to smoothly flow into the inland sea. It is a facility to keep the calmness in the port by preventing the blue waves from the sea. All the existing breakwaters are equipped only for the purpose of preventing the blue water. This situation is getting worse.

In particular, the water quality of the seawater is seriously deteriorated in areas with high inflow of uncleaned sewage and in the fishing villages, so some existing breakwaters can be removed and the seawater exchange is possible. Although there is a tendency to build a structure, it is urgent to develop a breakwater structure that has a seawater exchange function that can make the most of existing breakwaters, due to the serious problems that require a lot of construction cost and a long construction period. .

Therefore, the present invention for solving the above problems minimizes the removal of the existing breakwater facility and separate seawater inflow so that it can be reconstructed into the breakwater body having the seawater water passage function with the most economical and shortest air within the range of not removing the whole breakwater. With the structure to purchase the pipeline, the whole area of the breakwater is equally renovated to maximize the inflow of clean seawater, and the construction is relatively simple, inexpensive, and the construction period can be completed in a short time. Its purpose is to.

1 is a cross-sectional view showing a breakwater constructed in a conventional structure in a high blue area.

Figure 2 is a cross-sectional view showing a breakwater constructed in a conventional structure in a low blue area.

Figure 3 is a partial perspective view showing the body structure of the breakwater having a seawater exchange function implemented in the present invention.

4 is a cross-sectional view taken along the line AA ′ of FIG. 2.

5 is a cross-sectional view showing a body structure of the breakwater having a seawater exchange function of another embodiment of the present invention.

<Code Description of Main Parts of Drawing>

1. Breakwater 2. Front block 2a, 3a. Floor wall

2b, 3b. Upper wall 2c, 3c. Left wall 2d, 3d. Right wall

3. Body Block 4. Front 5. Seawater Water Supply

7, 7 '. Breakwater slope 9. Male 10. Cap concrete

11. Seawater discharge hole T. tetrapod

The present invention for achieving the above object can be carried out in two embodiments, that is, a breakwater body installed in a high wave and a breakwater body installed in a relatively low wave, the common feature of the two embodiments is the seawater inlet The water polo is in the same position as the surface of the water, and only the upper part of the water surface of the existing breakwater is removed, and the seawater pipeline is purchased to make the seawater exchange between the sea side and the inland sea smoothly based on the breakwater. When described in detail as follows.

First, as shown in the accompanying drawings Figure 2 will be described with respect to the body structure 1 of the breakwater having a seawater exchange function according to the present invention in one embodiment installed in a relatively high wave, the overall structure is in the cross-sectional direction The front block (2) is divided into a front block (2) and a body block (3). First, the front block (2) is hollow and hollow, and has a longer horizontal length than the vertical length, and includes a bottom wall (2a), an upper wall (2b), and a left wall (2c). The front face 4 of the front block 2 having the right wall 2d and the right wall 2d in a rectangular cross-sectional shape has the same inclination angle as the angle of the inclined surface 7 of the breakwater, and a plurality of seawater hydraulic holes 5 are formed in the front face 4. In addition, a plurality of seawater canisters 5 are formed in the upper side wall 2b so that the waves broken by the sofa block such as tetrapod T may pass through the canisters 5 and flow into the front block 2. On the rear side of the front block (2) and the same thickness and bar as the front block (2) A body block 3 composed of a wall 3a, an upper wall 3b, a left wall 3c, and a right wall 3d is connected. A male key 9 is attached to an upper wall 3b of the body block 3. When the capped concrete 10, which is the final facility, is cast and cured, the capped concrete 10 acts to fix the displacement of the cap concrete 10 due to the strong blue, and the cap concrete 10 to the inside as much as "a". To maximize seawater inflow, and the rear side of the body block 3 speaks downward at the same angle as the inclination angle at the beginning of the inclined surface 7 'of the breakwater, the length of which can be immersed by a certain depth under the surface of the inshore sea. By extending so that the structure of one embodiment in the present invention is constructed.

Therefore, in the present invention, when explaining the function of the breakwater body 1 having a seawater exchange function as an embodiment, the wave having a relatively high wave is pushed out and is statically or hardly formed on the inclined surface 7 of the outer sea side of the breakwater body 1. The blue waves hit by the sofa block T are dissipated into the water through the seawater canister 5 formed on the front surface 4 and the upper wall 2b of the front block 2, and the introduced seawater is It is formed on the rear side of the body block 3 extending downward by a certain depth under the surface of the inshore sea at the same angle as the inclined surface 7 'of the breakwater passing through the interior of the body block 3 connected to the front block 2. Through the sea discharge hole 11 which is introduced into the water surface of the inner sea side, clean sea water is supplied to the inner sea side while maintaining a constant temperature without causing blue waves, while as shown in FIG. 4 according to another embodiment. Rescue When explaining the sex, the breakwater body in this embodiment is applied to a place where the wave is relatively low, after removing the cap concrete (C) from the conventional breakwater (BW) in place of the body block (3) and in one embodiment The seawater inlet pipe 21 of the same shape is installed, but the seawater inlet 23 of the horizontal pipe 22 is configured to extend by a predetermined length so as to be consistent with the outer sea side tip of the cap concrete 24 and the seawater inlet pipe ( 21) the cap concrete (24) is placed on the top, the cap concrete 24 is seawater at the height of the existing cap concrete (C) in order to equalize the existing breakwater (BW) and cheondango (the height of the body to the cap concrete) The construction of another embodiment of the present invention is completed by pouring in a length equal to the remaining length minus the height of the inflow pipe 21 and extending in the rear side by “b” to increase the weight.

In the drawings, reference numeral 25 denotes a dead stone and 26 denotes a coated stone.

By the construction of the present invention as described above, it is possible to reconstruct the existing breakwater to the most economical and shortest air, to minimize the removal of the existing breakwater facility and to maximize the clean seawater inflow by using the seawater inlet pipe to equally rebuild the entire breakwater. Construction is relatively easy and inexpensive, and it is a very useful design that enables seawater exchange at the same time by construction.

Claims (1)

In the construction of the general sandstone breakwater structure into a breakwater body structure having a seawater exchange function capable of seawater exchange between the inland sea and the outside sea, the front block 2 and the body block 3 are in communication with each other. The block 2 is hollow and hollow, and has a longer horizontal length than the vertical length, and the front block having the bottom wall 2a, the upper wall 2b, the left wall 2c, and the right wall 2d in a rectangular cross-sectional shape ( The front surface 4 of 2) has the same angle of inclination as the angle of the inclined surface 7 of the breakwater, and a plurality of seawater hydraulic holes 5 are formed on the front surface 4, and a plurality of seawater hydraulic holes 5 are also formed on the upper wall 2b. To form tetrapod (T) on the upper surface of the upper side wall (2b), and at the rear side of the front block (2), the same thickness as the front block (2), the bottom wall (3a), the upper wall (3b) and the left wall (3c) ) And the body block (3) consisting of the right side wall (3d) is connected and the male key (9) is formed on the upper surface (8) of the body block (3) The rear side of (3) is spoken downward at the same angle as the inclination angle at the beginning of the inclined surface 7 'of the breakwater, the length of which is extended so that it can be immersed by a certain depth under the surface of the inshore sea. Body remodeling structure of breakwater with function.