KR200195535Y1 - Block for sea wall - Google Patents

Abstract

The present invention relates to a quay wall and a revetment block. Especially, it is installed in the quay of the harbor and the breakwater, and the coastal revetment, and absorbs the energy of the external force such as the wave effect to effectively reduce the reflected wave, while protecting the quay and the revetment of the ship. It aims to make it possible to build a stock market.

The present invention has an upper and lower indentation portion 11 is formed in the front and the upper body having a fitting protrusion 21 and the hook 22 on the front upper and lower sides of the connection body 10 having a slope 12 in front The plate 20 and the lower plate 30 having the long grooves 31 on the bottom thereof are integrally formed, respectively, while the rear end of the connecting body has inclined surfaces 41 formed on both front surfaces thereof, and the hook 43 in the groove 42 on the upper surface thereof. The structure is formed integrally with the vertical body 40 is coupled.

The present invention divides the first external force by the connecting body and then effectively weakens the external force by the refraction of wave force by the inclined surface and the vortex friction between waves. In addition, the present invention can be docked by the ship as the front facing the sea side to maintain the upright wall, and the upper surface of the block can form a flat concrete layer, the structure of the workshop, that is, loading and unloading cargo Will be provided.

Description

Block for Sea Wall {Block for Sea Wall}

The present invention is installed on the quay of the harbor and breakwater, and the coastal shore of the harbor to absorb the energy of all external forces such as wave action to effectively reduce the reflected wave to protect the quay and the coast of the ship, and to make the dock of the ship and the construction of the cargo field It relates to a quay wall and a relief block.

The block is generally called a sofa block because its main function is to absorb and dissipate wave energy, and so far, a tetrapod (TTP) mainly made of three-way horns is representative.

The tetrapods are commonly found in coastal or embankments, but they are not systematically stacked and are stacked in disorder. Tetrapods are designed so that the waves of the shore hit the body of the block, or some of them protrude into three sides of the body and enter the passage between the horns and the entangled with each other. It is.

However, the conventional release sofa block does not have much problem for the sofa function to alleviate the impact, but since it is constructed with a rugged and inclined surface, the amount of cargo to load and unload the walls of the upright wall or cargo can be carried out The low reflection wall of the intestine cannot be constructed and more space and quantity are needed than necessary due to the chaotic difficulty in constructing the breakwater or the breakwater. Therefore, such a conventional sofa block is not only aesthetically good, but also because of its extremely limited function, it is pointed out that its usability and economy are inferior.

Therefore, it is necessary to develop a block for constructing a breakwater structure that can increase the availability and economic efficiency and aesthetics, such as the construction of an upright quay and a loading dock that can be docked with a ship.

The present invention effectively mitigates the impact and reflection against external forces caused by waves, while constructing an upright wall to provide the functions of safety berthing and efficient cargo length of the ship, and greatly improving its usability, economy and aesthetics. The technical task is to provide a block.

Therefore, the present invention consists of a geometric structure consisting of a vertical body at the rear end and a horizontal plate at the front and a horizontal plate at the front and center of the connecting body. While the energy (external force) is lost while rubbing on the front and the inclined surface of the present invention, and further proceeds to form a turbulent flow in the rear flowing portion is almost lost energy.

1 is a perspective view of the present invention

Figure 2 is a main cross-sectional view of the present invention

Figure 3 is a side configuration of the masonry state of the present invention

Figure 4 (a) (b) (c) is a plan view showing a variety of installation state of the present invention

<Explanation of Signs of Major Parts of Drawings>

10: connecting body 11: recessed part

12: slope 20: top plate

21: fitting 22: hook

30: lower plate 31: long groove

40: vertical body 41: inclined surface

42: groove 43: hook

Upper and lower concave portions 11 are formed and provided with a connecting body 10 having an inclined surface 12 in the front and the upper and lower portions of the top plate 20 and the bottom having a fitting protrusion 21 and hook 22 The lower plate 30 having the long grooves 31 in the body is integrally formed, while the inclined surfaces 41 are formed on both front surfaces at the rear end of the connecting body 10, and the hooks 43 are coupled in the grooves 42 of the upper surface. The vertical body 40 is formed integrally.

Reference numeral 50 in the drawing shows a concrete pouring layer, which shows the construction of a loading site using the present invention, and (60) indicates coasts or shores.

The present invention configured as described above has a structure in which the left and right sides are interconnected as shown in FIGS. 2 to 4, but vertically and vertically, the zigzag masonry is also used here in a method of constructing bricks in a zigzag form to secure robustness. To enhance mutual cohesion. In the construction of the present invention, by using the hooks (43) formed in the upper plate (20) and the hooks (43) formed in the upper groove (42) of the vertical body (40) by lifting or lowering with heavy equipment or the like, the movement means is difficult. Rather, if mastery is better workability than chaotic disorder in the prior art.

Using this equipment, the block of the present invention is installed vertically or vertically or vertically and continuously. At this time, the present invention is installed to be connected to each other horizontally as shown in FIG. 2 and formed on the bottom surface of the lower plate 30 up and down. The fitting protrusions 21 and the hooks 22 protruding from the upper surface of the upper plate 20 into the jang groove 31 are inserted into each other. That is, in the present invention, the fitting protrusion 21 and the hook 22 are accommodated in the long groove 31, while the hook 43 formed on the upper surface of one vertical body 40 is also configured in the recess 42. Even if the layers are stacked up and down, the contact portions are in close close contact with each other, so that the upper and lower blocks are balanced and balanced without mutual relaxation.

In addition, the present invention is a structure in which the fitting protrusion 21 of the upper plate 20 is fitted into the long groove 31 of the lower plate 30 to maintain a firm and stable coupling state of the upper and lower blocks. This has the effect of strengthening the block's bearing force directly against the impact of the wave.

The present invention configured as described above, when the wave is first hit the front of the connecting body 10, but is bisected immediately around the connecting body 10 and with this is refracted outward by the inclined surface 12 of the front. In this case, since the same action is performed in the block next to it, the refracted waves collide with each other, and the external force is first reduced while not impacting the block of the present invention, and then the wave entering the rear of the connecting body 10 is vertically rearward. The inclined surface 41 of the body 40 is refracted once more. In other words, using the inclined surface 41 as described above in the present invention does not directly receive an impact against the external force, and immediately relieves the external force by deflecting the friction immediately. As mentioned above, the wave that is refracted by the same action in the block next to it is rubbed with each other, and the external force is lost, and the actual external force applied to the block itself is significantly weakened.

In addition, as the wave is refractively secondary by the inclined surface 41 and the force is significantly reduced, the wave is vortexed toward the upper and lower indents 11 of the connecting body 10, and this also hits the wave that has been moved from the block next to the external force. It is lost enough to have little effect. That is, the present invention divides the first external force by the connecting body 10 and then has a characteristic structure that effectively weakens the external force by the refraction action and the vortex friction between the waves.

On the other hand, the present invention provides a structure in which the vessel can be anchored by berthing as the front side toward the sea maintains a smooth upright wall when looking at its assembled state as shown in FIG. In addition, as shown in Figures 2 and 3 by placing the concrete on the upper surface of the myriad masonry using a predetermined formwork to form a concrete layer (50) having a flat top surface, that is, a work place for loading and unloading cargo on the ship It will also provide the structure of the volume. The present invention realizes that this is hardly possible in a sofa block such as tetrapod.

In addition, the present invention can be very easily applied to the coast or shore 50 of various structures such as bending as shown in Figure 4 (a) (b) (c).

The present invention is extremely useful for protecting coasts or shores by effectively mitigating and extinguishing the external force during wave action. In particular, it has a vertical and horizontal structure that reduces the use of blocks, while providing a beautiful appearance and secured a storage area that can carry out cargo handling and cargo loading and unloading operations. It will increase further.

Claims (1)

The upper plate 20 having upper and lower concave portions 11 formed therein and having a connecting body 10 having an inclined surface 12 at the front thereof and having fitting protrusions 21 and hooks 22 at the front upper and lower portions thereof. And the lower plate 30 having the long grooves 31 formed on the bottom thereof, respectively, while the inclined surfaces 41 are formed on both front surfaces at the rear end of the connecting body 10, and the hooks 43 are formed in the grooves 42 on the upper surfaces thereof. Block for the quay wall and revetment, characterized in that to form a combined vertical body 40 integrally.