KR100523320B1 - Embankment block structure for river bank to protect underwater ecosystem - Google Patents

Abstract

The present invention relates to a raft block for a river bank for protecting the underwater ecosystem to be installed in the river bank or sea bank raft foundation in more detail to protect the underwater ecosystem.

The present invention is a raft block installed in a lake connected to the river or the sea, the raft block made in a rectangular shape is stacked in the upper part of the foundation concrete part in multiple stages and the fish movement formed in the tee (T) inside the raft block While the fish can move freely through the passage, an amber stone inlet is formed so as to protrude above the center of the body of the polyethylene tee fume tube, and an amber stone protection mesh netron is formed inside the end of the polyethylene tee fume tube to inject amber stone. It is configured not to escape to the outside of the city, and forms a formwork on the outside of the polyethylene tee type fume pipe in a multi-stage stacking a raft block made in a rectangular shape on the upper part of the base concrete part and at the same time from the bottom of the raft block from the bottom The backfill concrete part and the two stage backfill concrete parts are cast It is formed to counter the earth pressure, and the embankment protection surface concrete part is formed so as to cover the upper upper surface of the revetment block and the upper surface of the two-stage backfill concrete part to provide a river dike hoa block structure for protecting the underwater ecosystem do.

Description

EMBANKMENT BLOCK STRUCTURE FOR RIVER BANK TO PROTECT UNDERWATER ECOSYSTEM

The present invention relates to a raft block, and more particularly, to a river bank raft block structure for protecting the underwater ecosystem to be installed on the base of the river bank or bank of the banks of the sea to protect the underwater ecosystem.

In general, river banks and river banks along the banks of the river banks are installed to prevent the erosion of the river or the surface facing the sea as much as possible.

At this time, the revetment block to be used is a lot of concrete retaining wall or block made of concrete products.

4 is a view illustrating a state in which a concrete retaining wall is constructed in a general arc, and the concrete retaining wall 10 is installed in a vertical or oblique direction (as shown in the drawing) on the surface contacting the lake to prevent erosion as much as possible.

FIG. 5 is a view illustrating a state in which a concrete block is constructed in a general arc, and the concrete block 40 is installed in multiple stages on a surface in contact with the arc to prevent erosion.

As described above, the concrete retaining wall and the concrete block used as the revetment block have a structure capable of preventing erosion as much as possible, but are often installed without consideration of the underwater ecosystem, which causes the underwater ecosystem to be extinct. There is a problem that provides a cause.

The present invention, in order to solve the above problems, the present invention, by changing the structure of the banks of the banks or banks of the sea banks used for river banks for protecting the underwater ecosystem having a structure that can maximize the protection of the aquatic ecosystem It is an object of the present invention to provide a relief block structure.

The present invention to achieve the above object is the present invention is a raft block installed in a lake connected to the river or the sea, the raft block made in a rectangular shape is loaded on the upper part of the base concrete part in multiple stages of the raft block While the fish can move freely through the fish passage formed in the tee (T) on the inside, an amber stone inlet is formed so as to protrude to the upper portion of the body of the polyethylene tee type fume pipe and protect the amber stones on the inside of each end of the polyethylene tee type fume pipe. The mesh netron is formed so as not to escape to the outside during the injection of amber stones, forming a formwork on the outside of the polyethylene tee type fume pipe is loaded in a multi-stage at the same time to load a revetment block made in a rectangular shape in the upper part of the base concrete part One-stage rear-filled cone from the lower side at the back of the raft block The trough and the two-stage backfilled concrete section are formed to be placed against the earth pressure, and the embankment protection surface concrete section is formed so as to span the rear upper surface of the rake block and the upper surface of the two-stage backfill concrete section. It provides a bank block structure for river banks.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention.

1 is a view showing the installed state of the raft block of the present invention, the raft block 400 made of a concrete material is produced in a rectangular shape, the raft block 400 is the upper portion of the base concrete portion 100 It is produced in multiple stages.

One-stage backfill concrete part 500 at the rear of each raft block 400 so that the soil of the raft is not settled to the river or the sea side when the raft block 400 is loaded in multiple stages on the upper portion of the base concrete portion 100 And two-stage backfill concrete portion 600 is poured, the upper surface of the revetment block 400 is in contact with the embankment protection surface concrete portion 700 is inclined.

Figure 2 is a view showing a state cut AA portion of Figure 1, the revetment block 400 is a fish movement passage 230 is formed in the T-shape so that the fish can move inside the fish movement passage The part 230 is filled with an amber stone 300 inside, and the space portion B is formed between the amber stones 300.

3 is a view showing the manufacturing process of the revetment block of the present invention, wherein the revetment block 400 is made of a structure in which the polyethylene tee type fume pipe 200 is made of polyethylene (PE) material so as to have a rectangular cross-sectional shape, The polyethylene tee-type fume pipe 200 is an amber stone insertion hole 210 is formed in the upper center, amber stone on the inner surface protruding on both sides and one side of the polyethylene tee-type fume pipe 200, respectively, so that the amber stone 300 does not escape to the outside The protective mesh netron network 220 is installed.

As the inner surface of the polyethylene tee type fume pipe 200 is penetrated, the fish moving passage 230 is formed on the inner surface thereof, and the fish moves through the space B formed between the amber stones 300. .

At this time, in order to produce the polyethylene tee type fume pipe 200 in the rectangular form of the raft block 400, the concrete is poured on the outer surface of the polyethylene tee type fume pipe 200 in the state in which the formwork panel is installed ( 400) is produced.

As shown in the above description, in the drawing, a state in which the revetment block 400 is installed in two stages is illustrated. In the construction, the revetment block 400 may be stacked in more than two stages, in particular, in the above-described revetment block ( When the 400 is stacked, the backing block 400 is placed in the back-filled concrete so as not to be pushed to the river or the sea side by the earth pressure.

In addition, since the shelter block 400 is used by inserting the different amber stones 300 inside the space portion (B) is formed on the inner surface is a small size fish used as a place for spawning, etc. You can protect it.

The effect of the present invention according to the above-described configuration and operating state will be described.

The installation structure of the revetment block according to the present invention can be easily installed in a lamination structure on the surface of the method of contact with the river or the sea side, while the fish moving passage part has a tee (T) type inside the revetment block. Because of its shape, the fish can easily move inwards, so that the inner surface of the revetment block can be used as a habitat, thereby protecting the aquatic ecosystem as much as possible.

1 is a view showing the installed state of the revetment block of the present invention

FIG. 2 is a view illustrating a state in which the A-A portion of FIG. 1 is cut.

3 is a view showing the manufacturing procedure of the revetment block of the present invention

4 is a view showing a state in which a concrete retaining wall is constructed in a general arc

5 is a view showing a state in which a concrete block is constructed in a general arc

Explanation of symbols for main parts of the drawings

100: foundation concrete 200: polyethylene tee fume pipe

210: amber stone insertion port 220: amber stone mesh mesh netron

230: fish moving passage part 300: amber stone

400: shore block 500: 1-staged backfill concrete

600: two-stage backfill concrete part 700: concrete part of embankment protection surface

Claims (1)

In the raft block installed in the lake connected to the river or the sea, The revetment block 400 made in a rectangular shape is loaded in the upper part of the base concrete portion 100 in multiple stages and the fish through the fish passage passage 230 formed in the tee (T) in the inside of the relieving block 400 While they are free to move, the amber stone injection port 210 is formed so as to protrude to the upper portion of the center of the polyethylene tee type fume pipe 200, and each of the amber stone protection mesh netron 220 inside the end of the polyethylene fume pipe (200) Is formed is configured not to escape to the outside during the injection of the amber stone 300, Forming the formwork on the outside of the polyethylene tee type fume pipe (200) by placing concrete in the multi-stage at the top of the foundation concrete portion 100 by placing the raft block 400 made in a rectangular shape and the raft block 400 1st backfill concrete 500 and two-stage backfill concrete portion 600 from the lower side in the rear of the) is cast in the longitudinal direction to form against earth pressure, Dbank protection banks for underwater ecosystem protection, characterized in that the embankment protection surface concrete part 700 is formed so as to span the rear upper surface of the raft block 400 and the upper surface of the two-stage backfill concrete portion 600 Block structure