KR101035133B1 - Block assembly for revetment and constructing method thereof - Google Patents

Abstract

PURPOSE: A block assembly for seawall protection and a construction method thereof are provided to maintain the coupling between a seawall block and a foundation block though the uplift or subsidence of a slope surface is generated. CONSTITUTION: A block assembly for seawall protection comprises a foundation block(10), a seawall block(50), and a separation prevention device. The foundation block is installed along the bottom of a river and supports the seawall block. The seawall block is installed in a bank slope surface(3) of the river. The separation prevention device couples the foundation block and the seawall block in order to prevent the separation of the seawall block.

Description

Block Assembly for Revetment and Constructing Method

The present invention relates to a block assembly for protection of a raft and a construction method thereof, and more particularly, a block assembly capable of protecting the levee by maintaining the bond between the raft block and the base block even if the surface of the river where the raft block is eroded. It relates to the construction method thereof.

Generally, a shelter is a workpiece installed on the surface of the river to protect the river's surface and prevent flooding, loss, and collapse of the river by running water in case of heavy rain or flood. In order to construct such a revetment, all-round construction is in parallel, which means constructing a revetment block of stone or concrete material on the river bank.

According to the prior art, when installing the raft block to form a raft connected to the bank of the river, the foundation concrete is first installed in the longitudinal direction along the flow path on the bottom surface of the stream. And the upper surface of the foundation concrete is supported by a raft block installed on the surface.

The conventional method for protecting the lake has the following problems.

First, due to the irregularities of the surface to install the revetment block, the workability of the revetment block is difficult and the surface is difficult to clean. Disruption or local elevation of soil due to gap water pressure by groundwater occurs. Soil exposure to rainwater accelerates soil destruction and loss. When microscopic flows of earth and sand occur, such as local elevation of soil or local settlement by freeze-thawing, there is a disadvantage in that the decompression block is deformed. Therefore, there was a problem that the bank can be easily separated or the banks collapse.

Second, since the side block facing the inner side of the stream is formed vertically to support the shore block is the water wave is dispersed upwards or downwards along the side of the base block. Among them, the water flowing downward erodes the foundation ground layer supporting the foundation block and sweeps away the soil which forms the foundation ground layer. As such, when the soil is lost, it causes the settlement of the foundation block, and thus, there is a problem in that the raft block supported by the foundation block may collapse.

The present invention has been made to improve the above-mentioned problems, block assembly that can maintain the binding of the basic block and the revetment block even if the rise or settlement of the surface by preventing the departure of the revetment block supported on the base block and The purpose is to provide a construction method thereof.

Another object of the present invention is to provide a block assembly and a construction method thereof that can prevent the earth and sand of the bottom of the river on which the base block is installed by sweeping the water upwards even if the water hits the foundation block. .

Block assembly for protection of the bank of the present invention for achieving the above object is a bank of the bank is installed a plurality of assembled on the legal surface of the river; A basic block installed along the bottom of the river and supporting the bank block; And an escape preventing means for coupling the base block and the rake block to prevent the rake block from being separated from the base block.

The foundation block includes floating settlement preventing means for preventing the foundation block from being settled by sweeping the soil of the bottom of the river by water current, and the floating settlement preventing means moves forward to the front surface of the foundation block. It characterized in that it comprises an inclined portion is gradually lowered in height, and the sofa portion formed in the inclined portion to weaken the water rises along the inclined portion.

The detachment preventing means is characterized in that it is provided with a connecting member for connecting one side of the revetment block to the seating portion provided in the base block so as to resist the external force acting in the direction away from the base block the revetment block .

The connection member is characterized in that the fixing pin which is fixed to the base block penetrating through the rake block.

The release preventing means is characterized in that it comprises a hinge coupling unit for hinge-bonding the base block and the raft block so that the raft block can resist against external force acting in a direction away from the base block.

The hinge coupling unit includes a first hinge portion formed on one side of the base block, a second hinge portion formed on one side of the revetment block, and a coupling member for hinge coupling the first and second hinge portions. do.

And the construction method of the block assembly for the protection of the relief of the present invention for achieving the above object comprises the steps of preparing a base block and a relief block; Arranging the edge and the surface of the river bottom; Continuously installing foundation blocks along the edge of the river bottom; Installing a rake block continuously on the surface of the river while supporting one side of the rake block on the base block; And combining the base block and the rake block with each other to prevent the bank block from being separated from the base block.

As described above, according to the present invention, since the base block and the revetment block are mutually coupled by the separation prevention means, even if the surface is raised or settled, the binding between the base block and the revetment block can be maintained firmly, thereby protecting the embankment. .

In addition, even if water splashes against the foundation block by the inclined portion and the couch portion formed in the foundation block, by inducing the water upwards, it is possible to prevent the sedimentation of the foundation block by preventing the earth and sand on the bottom of the river on which the foundation block is installed. have.

1 is a cross-sectional view showing a state in which a block assembly is constructed in a river according to an embodiment of the present invention,
Figure 2 is an exploded perspective view of the block assembly applied to Figure 1,
3 to 5 is a perspective view of the base block respectively applied to the block assembly according to another embodiment of the present invention,
6 is a cross-sectional view of FIG. 5,
7 is an exploded perspective view of a block assembly according to another embodiment of the present invention;
8 is a cross-sectional view illustrating a state in which a block assembly is constructed in a river according to another embodiment of the present invention;
9 is an exploded perspective view of the block assembly applied to FIG. 8.

Hereinafter, with reference to the accompanying drawings will be described in detail a block assembly for protection of the relief in accordance with a preferred embodiment of the present invention.

1 and 2, the block assembly according to an embodiment of the present invention is largely provided with a base block 10, a relief block 50, and the departure prevention means.

Base block 10 is installed along the bottom (1) of the river to support the bank block 50 installed on the bank embankment surface 3 of the river to prevent the bank block 50 flows along the law (3). . The foundation block 10 is ready-made in the form of a unit block can be installed by placing a large number in succession on the site or form the form along the bottom of the river can be installed by pouring concrete directly. Preferably, as shown, the base block 10 is preferably manufactured and installed in the field. In this case, mass production of the base block 10 is possible. In addition, the construction is possible without additional provisional facilities, such as formwork, and the construction is simple and fast because it does not need a water barrier to block the waterway when constructing the site.

The base block 10 includes a main body 11, a support 19 formed below the main body 11, and a seating part 15 formed above the main body 11.

Body 11 is preferably formed of an environmentally friendly material such as ocher. The main body 11 is installed to dig a groove of a certain depth in the bottom of the river, and the lower portion of the main body 11 is embedded in the groove. Alternatively, the main body 11 may be placed on the river bottom 1 without digging a groove. One or more traction rings (not shown) may be installed on the upper portion of the main body 11 to facilitate the traction operation.

The inclined portion 13 is formed on the front surface of the main body 11. The inclination angle of the inclined portion 13 may be appropriately adjusted in consideration of the size, flow velocity, etc. of the main body 11, but is preferably 20 to 50 degrees. The inclined portion 13 is an anti-sedimentation prevention means for preventing the main body 11 from being settled by the sewage of the river bottom (1) by the water current.

The water applied to the main body 11 strikes the front surface of the main body 11, and the hitting water current is an upward flow moving along the inclined portion 13. That is, the inclination part 13 guides the water which hits the main body 11 to the upper direction of the main body 11. This is because when the water acts below the main body 11, the soil of the river bottom 1 on which the main body 11 is installed may be swept away and the main body may be settled down. When the water level is kept below the height of the main body 11, the wave generated from the inner surface of the river moves to the lake side and hits the main body 11, or when water flows in the curved lake, it acts on the outer lake. When water collides with the main body 11 by the flow of water, the water stream acts above the main body 11 to prevent the bottom of the river from being mowed.

As shown in FIG. 3, the anti-sedimentation prevention means may further include a sofa part 40. Sofa portion 40 is to reduce the kinetic energy of the water by generating a resistance to the water rises along the inclined portion (13).

The sofa portion 40 is composed of a water channel 41 and a collision plate 45. The channel 41 has an entrance to the inclined portion 13. The waterway 41 extends horizontally from the entrance to the rear, i. Water hitting the main body 11 moves upward along the inclined surface of the inclined portion 13, enters the inlet of the waterway 41, and proceeds to the inside of the waterway 41. In addition, a plurality of impingement plates 45 are formed side by side at a predetermined interval at the bottom of the water channel 41 to reduce kinetic energy by reducing the speed of water entering the waterway 41. In this case, the impingement plate 45 is formed so as to protrude upward from the bottom of the waterway 41 by forming a wide conical lower portion and a narrow conical portion. The impingement plate 45 is inclined in the inlet direction of the channel 41. Unlike shown, instead of the collision plate 45, a plurality of grooves may be formed side by side at a predetermined interval on the bottom of the water channel 41. By reducing or dissipating the kinetic energy of the water by the sofa unit 40 as described above, the water does not cross the main body 11. In the above-described basic block shown in FIG. 3, the unexplained reference numerals are the same as those of the embodiment shown in FIG.

On the other hand, the support portion is such that the main body 11 is firmly fixed to the bottom (1) of the river. In the illustrated example, the support 19 is provided with a leg 19 formed to protrude downward from the bottom of the main body 11. In addition, although not shown, the main body 11 may be supported on the stream bottom by a support that penetrates the main body 11 up and down. These struts are embedded in the river bed 1 through the through-holes formed through the body 11 in the vertical direction.

A bank block 50 for protecting the legal surface (3) is provided along the legal surface (3) of the river on which the foundation block (10) is installed. Various conventional blocks may be applied in addition to those shown in the form of the relief block 50. The revetment block 50 is constructed by being continuously disposed in the longitudinal and transverse directions on the law surface 3. And although not shown, the relief blocks may be mutually coupled in the transverse and longitudinal directions in a conventional manner. For example, holes may be drilled on opposite sides of mutually adjacent revetment blocks, and both sides of the metal rod may be drilled in each hole to connect the revetment blocks.

Among the plurality of revetment blocks, the repose block 50 adjacent to the base block is combined with the base block 10 by the departure preventing means 20. The escape block 50 is prevented from being separated from the basic block 10 by the separation preventing means.

As an example of the separation prevention means is provided with a hinge coupling unit 20 for hinge coupling the basic block 10 and the revetment block 50.

The hinge coupling unit 20 includes a first hinge portion 21 formed on the base block 10, a second hinge portion 23 formed on one side of the shore block 50, and first and second hinge portions 21. Coupling member (25) (27) for hinge coupling 23) is provided.

The first hinge portion 21 is provided on the seating portion 15 formed on the upper rear side of the main body 11. The seating portion 15 includes a first seating surface 16 vertically formed on the upper surface of the main body 11 and a second seating surface 17 formed horizontally on the rear surface of the main body 11. The first seating surface 16 and the second seating surface 17 are disposed at a right angle.

The first hinge portion 21 is composed of a pair of brackets formed side by side spaced apart a predetermined distance. The bracket has a through hole through which the bolt 25 to be described later is inserted. The second hinge portion 23 is formed to protrude on one side of the rake block 50. The end of the second hinge portion 23 is formed in an arc shape. Through holes are formed in the second hinge portion 23. The second hinge portion 23 is inserted between the brackets of the first hinge portion 21. Bolts 25 and nuts 27 are used as coupling members. The bolt 25 is inserted into the through holes of the first and second hinge portions 21 and 23 to be screwed with the nut 27.

Even if an external force is applied to the revetment block 50 in the direction away from the base block 10, that is, in the direction of the embankment from the river bottom 1 due to the hinge coupling unit 20, the settlement of the surface 3 occurs. The block 50 can resist external forces, so that the block 50 is prevented from being separated from the base block 10. In addition, since the revetment block 50 is hinged to the base block 10, the revetment block 50 can be moved up and down with respect to the base block 10. Therefore, even if the deformation comes to the surface 3, the bank block 50 may flow to correspond to the deformation of the surface (3).

7 shows another example of the hinge coupling unit. Referring to FIG. 7, the hinge coupling unit 80 includes a first hinge portion 81 formed on the base block 10, a second hinge portion 83 formed on the raft block 60, and first and second parts. Coupling members (85) and (87) for hinge engaging the hinge portion (81) (83).

The first hinge portion 81 is installed in the seating portion 15. The first hinge portion 81 is composed of a pair of rings formed at both ends of the first seating surface 16 embedded in the main body 11. And the second hinge portion 83 is formed at the front end of the revetment block (60). The second hinge portion 83 is also formed of a ring formed at both ends embedded in the inside of the revetment block (60). A bolt 85 and a nut 87 which hinge-engage the first and second hinge portions 81 and 83 as the coupling member are used.

In the illustrated example, the revetment block 60 has a circular vegetation hole 63 is formed in the center, the vegetation grooves 65 are formed on both sides. In the vegetation hole, the vegetation groove 65 forms a vegetation space when combined with the adjacent eosin block. And fixing holes extending from the left and right sides, the rear surface of the revetment block in the vegetation hole 63 is formed through. These fixing holes may be inserted into the pins to fix the adjacent ophthalmic blocks on the left and right sides and the rear side.

Meanwhile, FIG. 4 illustrates a basic block applied to another embodiment of the present invention. The illustrated base block is provided with coupling means so as to be coupled to adjacent base blocks on both sides.

Referring to FIG. 4, the first coupling part 111 protrudes from one side of the main body 11 of the base block 10 as a coupling means, and the second coupling part 115 formed on the other side of the main body 11. ) Is provided. An insertion hole 113 is formed in the first coupling part 111, and an insertion protrusion 117 is formed in the second coupling part 115.

The first coupling part 111 is formed on one side of the main body 11, that is, the upper right side of the main body 111 in the illustrated example and extends in the right direction. The second coupling part 115 is formed on the opposite side of the first coupling part 111, that is, on the left side of the main body 11. The second coupling portion 115 is formed to protrude in the left direction from the body (11). When constructing the basic block 10, the first coupling portion 111 is disposed above the second coupling portion of the adjacent basic block. Therefore, the base block 10 and the adjacent base block are coupled to each other in the vertical direction to increase the mutual binding force between adjacent base blocks.

Insertion hole 113 formed in the first coupling portion 111 is formed through the first coupling portion 111 in the upper direction from the lower portion of the first coupling portion 111. Preferably, the insertion hole 113 is formed in a conical shape which gradually decreases in diameter as it goes upward. In addition, the insertion protrusion 117 inserted into the insertion hole 113 is also formed in a conical shape which gradually decreases in diameter as it proceeds upward to correspond to the shape of the insertion hole 113. The first and second coupling parts coupled in the vertical direction by the coupling structure of the insertion hole 113 and the insertion protrusion 117 are prevented from being separated in all directions.

Another example of the coupling means is shown in FIGS. 5 and 6. The first coupling portion 111 and the second coupling portion 115 and the first coupling portion protruded in the direction of the base block adjacent to each other at the ends of the first and second coupling portions 111 and 115 by the coupling means shown. And a second insertion protrusion 241 and a second insertion protrusion 245 inserted into an inner direction of the main body at one side of the main body 11 positioned below the first coupling part 111. The first insertion hole 243 and the other side of the main body 11 positioned above the second coupling part 115 to be coupled to each other to be formed in the inner direction of the main body, and the first insertion protrusion 241 is inserted thereinto. It has a second insertion hole 247 to be coupled. Preferably, the first and second insertion protrusions 241 and 245 and the first and second insertion holes 243 and 247 are all formed in a conical shape.

In the above-described basic blocks shown in FIGS. 4 to 6, reference numerals are the same as in the exemplary embodiment illustrated in FIG. 2, and thus detailed descriptions thereof will be omitted.

8 and 9 illustrate a relief block assembly according to another embodiment of the present invention.

8 and 9 differ only in the seating portion and the separation preventing means of the base block and the other configurations are the same as the embodiment of Figs.

The detachment prevention means shown is provided as a connecting member for connecting one side of the revetment block 50 to the seating portion 15 provided in the base block 10. The connection member consists of a fixing pin 31 fixed to the base block 10 by penetrating the raft block 50 so that the raft block 50 can resist against external force acting in a direction away from the base block 10. Thereby preventing departure from the basic block 10.

The seating portion 15 of the basic block on which the revetment block 50 is seated has a first seating surface 16 formed to be inclined downward from an upper surface of the main body 11 and a second inclined downward from a rear surface of the main body 11. It consists of a seating surface 17. The inclination angle of the second seating surface 17 is equal to the angle that the eye block 50 forms with the base block 10. The first seating surface 16 and the second seating surface 17 form a right angle.

The seating portion 15 is seated so that the end of the guard block 50 is in close contact. One side of the revetment block 50 is in contact with the first seating surface 16, and a part of the bottom of the revetment block 50 is in contact with the second seating surface 17. As described above, the fixing pin 31 connects the revetment block 50 and the basic block 10 seated on the seating part 15 to allow the revetment block 50 to be fixed to the basic block 10.

A pin insertion hole 33 vertically penetrates up and down is formed at one side of the revetment block 50, and the pin 11 into which the fixing pin 31 passed through the pin insertion hole 33 is inserted into the main body 11 of the basic block. The fixing hole 35 is formed. The pin fixing hole 35 is formed through the second seating surface 17 and penetrating to the rear surface of the main body 11. The pin fixing hole 35 is formed to coincide with the pin insertion hole 33 when the eye block 50 is seated in the seating part 15. Therefore, the pin fixing hole 35 is formed to be inclined in the main body (11).

Hereinafter, the construction method for constructing the above-described block assembly of the present invention will be described with reference to FIGS. 1 and 2.

The construction method of the block assembly includes the steps of preparing the foundation block 10 and the revetment block 50, arranging the edge and the surface 3 of the river bottom (1), along the edge of the river bottom (1) Installing the foundation blocks 10 in a row; and installing the shore banks 50 continuously on the legal surface 3 of the stream, and supporting one side of the shore blocks 50 on the foundation blocks 10; Coupling the base block 10 and the raft block 50 to each other to prevent the raft block 50 from being separated from the base block 10.

Looking in detail, first, prepare the basic block 10 and the revetment block 50 to be installed on the site. When the foundation block 10 is prepared, the construction site is moved to the river. The river floor (1) and the surface (3), which is a construction site, are smoothly arranged so that the foundation block 10 and the revetment block 50 can be installed.

The base blocks 10 are arranged along the edges of the stream bottom 1. At this time, one or more traction rings may be installed on the upper portion of the main body 11 to facilitate the towing operation. In the arrangement of the foundation blocks illustrated in FIG. 4, the plurality of foundation blocks are sequentially arranged such that the first coupling portion 111 overlaps the second coupling portion 115 of the adjacent foundation block up and down along the edge of the stream bottom. The insertion protrusion 117 formed in the second coupling portion 115 is inserted into the insertion hole 113 of the first coupling portion 111.

Of course, the construction of the foundation block 10 can be used to support the pillar to fix each foundation block 10 to the river floor.

Next, a plurality of guard block 50 is installed along the law surface (3) summarized. At this time, the basic block 10 and the revetment block 50 are coupled to each other by the separation prevention means. In the illustrated example, the second hinge portion 23 of the raft block 50 is hinged using the first hinge portion 21 and the coupling member of the base block 10. Two shore blocks each are combined with one basic block 10. And it is stacked up sequentially by combining the other shore block in the rear end of the shore block combined with the basic block. The revetment block 50 is continuously arranged by combining a plurality in the longitudinal and transverse directions along the law surface (3). And the upper surface of the legal surface (3) can be installed in the finishing block 90 located in the horizontal direction on the ground.

On the other hand, using the separation prevention means shown in Figure 7 and 9 can be constructed by combining the base block and the revetment block.

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

10: basic block 11: main body
13: inclined portion 15: seating portion
20: hinge coupling unit 21: the first hinge portion
23: 2nd hinge part 50: Hoan block

Claims (7)

Lake banks are installed in a number of assembled on the legal surface of the river;
A basic block installed along the bottom of the river and supporting the bank block;
And anti-separation means for coupling the base block and the repose block to prevent the detachment of the repose block from the base block.
The base block is provided with a plurality of the main body is continuously assembled and installed, the seating portion is formed in the main body to be seated on the guard protection block, the coupling means which is provided in the main body and can be coupled to the adjacent main body,
The coupling means is formed on the main body so that one side of the main body and one side of the main body adjacent to each other in the vertical direction and the first coupling portion protruding in the direction of the adjacent main body, the opposite side formed with the first coupling portion A second coupling portion formed at a lower portion of the main body and protruding in an adjacent main body direction and having an upper surface connected to the lower surface of the first coupling portion, and protruding in the direction of the main body adjacent to each other at an end of the first and second coupling portions; A first insertion hole formed at one side of the main body located below the first coupling part, a first insertion hole formed at the bottom of the first coupling part, and the second insertion protrusion is inserted into and coupled to the upper side of the second coupling part; It is formed by being drawn in from the other side of the main body located and the first protection projection characterized in that it comprises a second insertion hole for inserting and coupling the first insertion projections A block assembly. According to claim 1, wherein the foundation block is provided with anti-sedimentation prevention means for preventing the foundation block is settled by the sewage of the bottom of the river by water current,
The anti-sedimentation prevention means includes an inclined portion which gradually lowers as the height of the foundation block progresses to the front of the base block, and a sofa portion formed in the inclined portion to weaken the water flowing along the inclined portion. Block assembly for protection of shores. The method of claim 1, wherein the separation preventing means is provided with a connecting member for connecting one side of the revetment block to the seating portion to be able to resist the external force acting in the direction away from the base block the revetment block Block assembly for protection of shores. 4. The block assembly of claim 3, wherein the connection member is a fixing pin that is fixed to the foundation block through the relief block. The method of claim 1, wherein the separation preventing means comprises a hinge coupling unit for hinge-bonding the base block and the raft block so that the raft block is resistant to external forces acting in a direction away from the base block. Block assembly for protection of shores. The hinge member of claim 5, wherein the hinge coupling unit comprises: a first hinge portion formed on one side of the base block, a second hinge portion formed on one side of the rake block, and a coupling member hinged to the first and second hinge portions; Block assembly for rake protection, characterized in that it comprises a. Preparing an elementary block and a relief block;
Arranging the edge and the surface of the river bottom;
Continuously installing foundation blocks along the edge of the river bottom;
Installing a rake block continuously on the surface of the river while supporting one side of the rake block on the base block;
And coupling the base block and the raft block to each other to prevent the raft block from being separated from the base block.
The base block is provided with a plurality of the main body is continuously assembled and installed, the seating portion is formed in the main body to be seated on the guard protection block, the coupling means which is provided in the main body and can be coupled to the adjacent main body, The coupling means is formed on the main body so that one side of the main body and one side of the main body adjacent to each other in the vertical direction and the first coupling portion protruding in the direction of the adjacent main body, the opposite side formed with the first coupling portion A second coupling portion formed at a lower portion of the main body and protruding in an adjacent main body direction and having an upper surface connected to the lower surface of the first coupling portion, and protruding in the direction of the main body adjacent to each other at an end of the first and second coupling portions; The first and second insertion protrusions formed, and the second insertion protrusions are formed by being drawn from one side of the main body located below the first coupling part. And a first insertion hole for inserting the binding, formed is flowing from the other surface of the main body is located above the second engagement portion and a second insertion hole for coupling the first insertion protrusion is inserted,
The continuously installing the base block may be installed such that the first coupling part is overlapped with the second coupling part of the adjacent main body up and down, and the first insertion protrusion is inserted into the second insertion hole of the adjacent main body. Construction method of the block assembly for protection of the rake.

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