KR101185998B1 - Construction method of shoreline block with seawater distribution port - Google Patents

Abstract

The present invention relates to a method for constructing a sea block, the seawater flow port is formed, in more detail, a right angle groove and formed in the upper left and upper right corners at the front of the block unit, respectively, and communicates with each of the right angle groove and the block A seawater flow port formed through the left and right longitudinal direction of the unit body, a binding protrusion formed on one side of the block unit body to increase the binding force between the block unit body, a binding recess formed on the opposite side thereof, and an upper left side at the rear of the block unit body. And a quadrangular curved groove portion formed at each of the upper right corners and a semicircular groove portion formed at the upper center corner thereof, communicating with the front of each quadrant curved groove portion, and a through groove formed vertically through the block unit, and the front of the semi circular groove portion. In communication with, consisting of through holes formed through the vertically of the block unit The sea water flow port as claimed relates to a construction method using the formed revetment block.
[Index]
Seawater Distribution Zone, Hoan Block

Description

Construction method of shoreline block with seawater outlet

The present invention relates to a method for constructing a lake block with a seawater distribution port, and is provided in a variety of fish and living creatures inhabiting rivers by being installed on the surface cuts of rivers, riverbanks, banks, reservoirs, and reservoirs. The present invention relates to a method for constructing a sea block, in which a seawater flow port is provided to reduce the flow rate and improve the quality of river water, and to prevent collapse or loss during the flow or downpour of the soil.

Typically, the levees piled up for flood prevention are formed to have an angle of repose and have an angle of repose. The sediment blocks have been installed to prevent the sediment of the slopes from being washed away by rainwater to collapse the dikes. In addition, the urban environment with high land-use density around rivers has changed due to the maintenance of reservoirs and blunts, linear maintenance of river channels, and construction of river banks. In addition, reservoirs have been strengthened and simplified, resulting in the transformation and destruction of the various aquatic structures inhabiting aquatic fish and ecotones.

According to Korean Utility Model Registration No. 0344555, concave and convex parts are continuously constructed to form an associative space, and blocks are fixed and pushed by using pins while stacking blocks in the lateral or longitudinal direction. According to Utility Model Registration No. 0192064, the block is made porous and has a groove in the center of the block, which has an associative function, and the block is pushed to the front by using a fixing pin while zipping the block horizontally and vertically. It is designed not to. And it is a situation that crushed stone or stone is used as the retaining wall construction method of the conventional river retaining wall and road incision site.

The above-mentioned design or construction method has no self-binding function, so a separate fixing pin must be used, and the front and rear holes are perforated so that the surface and water come into contact with the retaining wall function, and the fishery space is narrow, which is sufficient for various fish. Not only does it provide a habitat or spawning area, but the strength and size of the block is small, so it is weak in convective force, and by using a separate revetment block or retaining wall block on the side connected with the associate block, the structure is weakly connected, and production, manufacturing cost, transportation cost There is a disadvantage that rises and hassle less work and workability in construction and repair. In addition, the retaining walls of rivers using crushed stone or stone can not provide ecological space at all parts of the waterway and the surface of the river, as well as supplying materials by indiscriminately destroying the nature of other regions.

Accordingly, the present invention has been devised to solve the above problems, and is provided in a variety of fish and living creatures inhabiting rivers by being installed in the cut surface of rivers, riverbanks, banks, reservoirs, and reservoirs. The present invention aims to provide a method of constructing a raft block in which a seawater flow port is formed to reduce the flow velocity to improve river water quality and to prevent collapse or loss during the flow or downpour of soil.

In order to solve the above problems, the present invention is a rectangular groove portion formed in the upper left and upper right corners at the front portion of the block unit body, and communicating with each of the rectangular groove portions in the rear and formed through the left and right longitudinal direction of the block unit body A binding protrusion formed on one side of the block unit, a binding recess formed on the opposite side thereof, and a quadrant curved portion formed at the upper left and upper right corners at the rear of the block unit to increase the binding force between the seawater flow port and the block unit. A semicircular groove formed at the top center edge and a face groove portion, a through groove formed in communication with the quadrant curved groove portions in front of the block unit body, and in front of the semicircular groove portion, and in front of the semicircular groove portion; The seawater distribution port is formed, characterized in that consisting of through holes formed through It should provide a block.

In addition, the present invention is a method for constructing the surface of the lake by using the sea banks with the seawater flow port is formed, the front of the block unit in the zigzag form so that the center of the block unit is located above the side binding portion of each block unit Stacking to reduce the flow rate of the stream through the seawater flow port communicating with the right angle groove and to form an eocheong, and the one end of the net in the through hole formed by the vertical stack between the through groove and the through hole as the rear portion of the block unit The other end of the net is discharged through the quadrangular curved groove and the semi-circular groove to install horizontally wide, and then fill the remaining space with the mortar, rubble or soil with the laid net interposed therebetween to stabilize the construction state. It provides a method of constructing the sea banks formed lake banks comprising a step.

At this time, the steel holder is inserted into the through hole formed by the upper and lower stacks of the through groove and the through hole to integrate a plurality of block units, and the lower end of the steel holder is installed and fixed on the ground to stabilize the relief block.

The coastal water block formed with the seawater distribution port according to the present invention is provided on the surface cuts of rivers or river reservoirs, embankments and reservoir upstreams, and reservoirs to provide habitat for various fish and organisms inhabiting rivers, It can be reduced to improve river water quality, while preventing the collapse or loss of soil during runoff or heavy rain.

On the other hand, the seawater distribution port of the block unit stacked on the water can be used as a vegetation space using a nest of birds living in the water, or naturally introduced soil, it is possible to construct an eco-friendly revetment block.

In addition, according to the construction method of the revetment block according to the present invention, because the earth and sand is fixed through the mesh fastened to the through-hole of the block unit body can stabilize the construction state, as well as the road surface, railroad, highway There is an effect that can be applied to the retaining wall for installing the.

1 and 2 is a perspective view of the block unit constituting the revetment block formed with the seawater distribution port according to the present invention, A represents the front portion of the block unit, B represents the rear portion of the block unit.
3 is an embodiment in which a plurality of block units according to the present invention are fastened in the transverse direction.
Figure 4 is an embodiment of the construction of the sea banks formed revetment block in accordance with the present invention.
Figure 5 is a side cross-sectional schematic view of the construction of the coastal block formed with the seawater distribution port according to the present invention.
Figure 6 is another embodiment for use in retaining wall construction that is installed on the road, railroad, high-speed rail, etc. using the raft block in accordance with the present invention.

The configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 is a perspective view of the block unit (1) constituting the rake block formed with the seawater distribution port according to the present invention. A represents the front portion of the block unit body 1, and B represents the rear portion of the block unit body 1.

Specifically, the right angle groove 10 formed in the upper left and upper right corners at the front portion of the block unit body 1, respectively communicating with the right angle groove 10 and the rear and penetrates in the left and right longitudinal direction of the block unit body (1) The seawater flow port 20 is formed, the binding protrusion 30a formed on one side of the block unit 1 to increase the binding force between the block unit 1, the binding recess 30b formed on the opposite side thereof, Quadrant curved grooves 40 formed at the upper left and upper right corners of the block unit body 1 and semicircular grooves 50 formed at the upper center corners, respectively, and communicated with the quadrant curved grooves 40 in front of the block unit 1. And a through hole 60 vertically penetrating the block unit body 1 and a through hole 70 communicating with the front of the semi-circular groove part 50 and vertically penetrating the block unit body 1. do.

A plurality of the block unit 1 is connected horizontally through the fastening of the binding protrusion 30a and the binding recess 30b, and stacked to the top to form a relief block.

3 is an embodiment in which a plurality of block units 1 according to the present invention are fastened in a lateral direction, and as described above, a block unit to be connected to a binding protrusion 30a formed on one side of the block unit 1. When the engagement recesses 30b formed on the opposite side of (1) are mutually fitted and extended, the frontal portion of the revetment block has a continuous right angle groove 10 and a horizontal seawater flow port 20 communicating with the rear side thereof. To form an Associate Space (100). The fishery space 100 according to the present invention provides a habitat for various fish or organisms inhabiting the river, and reduces the flow rate to improve the river water quality while preventing the collapse or loss during the flow or downpour of the soil. Can be. On the other hand, in the fishery space 100 that is stacked on the water exposed can be used as a vegetation space using a nest of birds inhabiting the water or naturally introduced soil, it is possible to construct an eco-friendly revetment block.

On the other hand, the back portion of the revetment block is a continuous semi-circular groove is formed through the fastening of the continuous block unit body 1, the through-hole 200 is communicated to the front of the block unit body 1 in the semi-circular groove, vertically penetrated This is formed regularly. That is, the through holes 70 of the block unit body 1 and the holes formed through the continuous fastening of the block unit body 1 in which the through grooves 60 are formed all make the through hole 200 in the present invention. The through-holes 200 are fitted with a mesh 210 for stably constructing the stacked banks on the law.

Figure 4 is an embodiment of the construction of the revetment block formed with the seawater distribution port according to the invention, Figure 5 is a side cross-sectional schematic view.

First, the seawater distribution port 20 which is stacked in a zigzag form in a zigzag form so that the center of the block unit body 1 is located on the front side of the block unit body 1 above the side binding portion of each block unit body 1 is in communication with the right angle groove 10. Reduces the flow velocity of the stream through the) and forms the Associate space (100).

On the other hand, as the rear portion of the block unit 1 is fixed to the intermediate portion of the mesh 210 in the through hole 200 formed by the vertical stack between the through groove 60 and the through hole 70, the mesh of the network 210 The end is discharged to the outside through the quadrangular curved groove portion 40 and the semi-circular groove portion 50 in communication with the through hole 200 in the upper and lower portions of the block unit 1, respectively, and laid horizontally wide, and then laid Residual space is filled with mortar, rubble or earth and sand through the mesh 210 to stabilize the construction state. The revetment block can be stably constructed because the mesh 210 is stably backfilled with earth and sand.

Since the through holes 200 are integrally connected by the height of the stacked block units 1, the network 210 through the through holes 200 may be fixed to each block unit 1 to be installed. Can be fixed and installed every two, the number and range of installation of the mesh 210 will be adjustable according to those skilled in the art.

In addition, in order to stably construct the revetment block according to the present invention, it is preferable to firmly integrate the plurality of block unit pieces 1 by inserting the vertical steel column 220 into the through hole 200. Of course, the lower end of the steel column 220 will have to be firmly installed on the ground.

Since the revetment block according to the present invention has a plurality of through-holes 200 are formed through the stacking of the block unit 1, it is possible to install the mesh 210 in a part, and to insert the steel column 220 in the other part. Do. Of course, the through-hole 200 may also be provided with the mesh 210 and the steel column 220 together.

Figure 6 is another embodiment for use in retaining wall construction that is installed on the road, railroad, high-speed rail, etc. using the raft block in accordance with the present invention. Specifically, the mortar, rubble or accumulated in the interior by integrally connecting the mesh 210 back filled through the vertical stacking of the block unit 1 on one side and the mesh 210 back filled through the vertical stacking of the block unit on the other side It can be configured to be stably supported against the earth and sand to be constructed.

Although the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the above-described embodiments, and an equivalent configuration modified or changed by those skilled in the art is a technical feature of the present invention. Obviously, it is not beyond the scope of thought.

10: right angle groove 20: seawater distribution port
30a: binding protrusion 30b: binding recess
40: quadrant curved groove 50: semi-circular groove
60: through hole 70: through hole
100: Associate space 200: Through hole
210: net 220: steel holding

Claims (3)

delete Right angle grooves 10 formed at the upper left and upper right corners of the front face of the block unit 1, respectively, communicating with the right angle grooves 10 and rearward and formed through the left and right longitudinal direction of the block unit (sea flow port) 20), the binding projection 30a formed on one side of the block unit body to increase the binding force between the block unit body (1), the binding concave portion (30b) formed on the opposite side of the block unit body 10 in the back portion The quadrangular curved groove portion 40 formed at the left and upper right corners respectively and the semicircular groove portion 50 formed at the upper center corner thereof, communicate with the front of each of the quadrant curved groove portions 40, and the vertical of the block unit (1) The seawater flow port is formed by communicating with the front of the through-hole 60 and the semi-circular groove 50 is formed through the through hole 70 formed through the vertically of the block unit (1) A ban block Using a method for construction of a breakwater in the slopes,
As the front portion of the block unit body 1, the seawater distribution port 20 communicated with the right angle groove 10 by stacking in a zigzag form so that the center of the block unit body 1 is located above the side binding portion of each block unit body 1. Reducing the flow rate of the river through the forming the space 100; And
The one end of the mesh 210 is fastened to the through hole 200 formed by the vertical stack between the through groove 60 and the through hole 70 as the rear portion of the block unit 1, and the other end of the mesh 210 is Discharge through the quadrant curved groove 40 and the semi-circular groove 50, laid horizontally wide, and then stabilizes the construction state by filling the remaining space with the mortar, rubble or soil with the laid network 210 in between Construction method of the raft block formed with a seawater distribution port characterized in that it comprises a step of. According to claim 2, The steel holder 220 is inserted into the through hole 200 formed by the vertical stack between the through groove 60 and the through hole 70 to integrate a plurality of block unit (1), the steel holder The lower end portion of the 220 is installed on the ground and fixed to the sea banks, characterized in that the stabilization of the revetment block construction of the revetment block is formed.

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