KR100515136B1 - Vegetation block, and method for constructing vegetation retaining wall and bank protection using the block - Google Patents

Abstract

Vegetation block according to the present invention has a box-like appearance of the upper and rear sides of the rectangular parallelepiped as a whole, the irregular surface of the irregular shape to give a natural stone feel is formed on the outer surface of the front, the front of the upper surface of the left and right side walls Protrusion jaw portion is formed at the upper end of the unit and the front surface to facilitate the stack assembly between the unit block structures, extends to the protruding jaw portion on the left and right side walls, the planar seating portion is formed at a relatively lower height than the protruding jaw portion on the left and right side walls, The bottom surface has a smooth drainage of rainwater and surface water penetrated into the block structure and a through hole for water flow when the block body is installed in water. The vegetation retaining wall and the revetment construction method using the vegetation block, such as the foundation concrete is placed on the lower part of the bottom of the incision or the bottom of the road, and the vegetation block is laminated stepwise on the foundation concrete layer and backfilled with large stones or soil After constructing the retaining wall or the revetment structure, plants or plants are planted in the exposed areas at each stage of the laminated vegetation blocks to complete the construction of the retaining wall or the revetment.

According to the present invention, by creating a space and environment for the spawning and habitat of amphibians, insects and fishes in the block structure, it has the advantage that it can contribute to the restoration and preservation of the ecosystem as well as the original function as a retaining wall or lakeside. have.

Description

Vegetation block and method for constructing vegetation retaining wall and bank protection using the block

The present invention relates to a vegetation block, and a vegetation retaining wall and a revetment construction method using the same, and in particular, the vegetation block that can contribute to the restoration and preservation of the ecosystem by creating a space and environment for amphibians, insects and fish in the block structure. And it relates to a vegetation retaining wall and the relief construction method using the same.

In general, a river revetment has been generally formed by a concrete retaining wall, stonework or mortar block laying. Although the rafting method has excellent dimensional function for erosion, scour, and loss of embankment, it is difficult to vegetation of herbaceous plants by covering the topsoil layer with concrete, which has a serious impact on the habitat environment of riverside animals and animals. There is a problem. Therefore, the development and construction of a natural ecological revetment method that can improve not only the water function for the safety of rivers, but also the water supply function to restore and preserve the ecosystem is required.

The present invention has been made in view of the above-mentioned matters, and the vegetation block and vegetation retaining wall using the vegetation block which can contribute to the restoration and preservation of the ecosystem by creating a space and environment for amphibians, insects, and fish spawning in the block structure. And the purpose is to provide a revetment construction method.

In order to achieve the above object, the vegetation block according to the present invention is used for construction of a retaining wall of a road cutout or a lakeside of both rivers.

Overall, the rectangular parallelepiped has a box-shaped exterior with the top and the back open, and an irregular surface is formed on the outer surface of the front surface to give a natural stone feel, and the unit block is located on the front and upper ends of the left and right side walls. Protruding jaw portion is formed to facilitate the stacking assembly between the structures, and extends to the protruding jaw portion on the left and right side walls to form a flat seating portion at a relatively lower height than the protruding jaw portion on the left and right side walls, the bottom surface into the block structure It is characterized by the smooth drainage of rainwater and surface water penetrated and through holes for water flow when the block body is installed in water.

Here, preferably, in the planar seating portion of the upper left and right side walls, when the unit block structures are stacked and assembled to build retaining walls or revetments, one end of the rebar is provided by interposing reinforcing bars at predetermined points between the stacked block structures. And the other end of the reinforcing bar is fixed to the backfill fill surface behind the block assembly, and grooves for reinforcing bars for reinforcing the structure of the block assembly are further formed. Preferably, the rear end of the bottom surface is formed to stack the unit block structures to keep the laminated assembly state stable when constructing the retaining wall or the shelter, and to create a cozy associate and scattering space when installed in water. It is extended to the bottom surface has a locking step of a predetermined height is further formed. In addition, preferably the fiber mesh for fish spawn is further provided on the inner bottom surface of the block structure in which the locking step is formed.

In addition, the vegetation retaining wall construction method using the vegetation block according to the present invention in order to achieve the above object is mainly a method of constructing the vegetation retaining wall using the vegetation block of the present invention on the cutout or cut surface of the road,

(a) curing the concrete by pouring the foundation concrete at the site where the retaining wall is to be constructed at one or both edges of the road;

(b) In the form of a box with an upper surface and a rear surface open on the base concrete layer, irregular irregularities are formed on the front surface, and protruding jaw portions and planar seating portions are formed on the upper and left sides of the left and right side walls to facilitate stacking assembly. Arranging horizontally the unit vegetation blocks in which the drainage holes are formed on the bottom surface thereof in one step height;

(c) installing a spinning sheet for preventing soil leakage along the cut slope formed on the rear bottom surface of the foundation concrete layer and the rear of the foundation concrete layer;

(d) stabilizing the construction state by backfilling the soil with a space between the rear part of the foundation concrete layer, the inner space of the first-stage vegetation blocks installed on the foundation concrete layer, and the rear portion extending to the space and the cut surface on which the radiation sheet is installed; step;

(e) stacking unit vegetation blocks on the first stage vegetation blocks again and constructing the second vegetation blocks up to two levels, and backfilling the interior spaces of the vegetation blocks with their soil;

(f) repeating the sequential stacking arrangement and backfilling process of vegetation blocks as many times as the retaining wall construction height; And

(g) a step of finishing the retaining wall construction by planting flowers on the soil-filled exposed areas of the unit vegetation blocks provided for each layer of the retaining wall structure assembled by the repeated construction.

Here, preferably in the series of vegetation block construction process as described above, each time the vegetation blocks are built up to approximately every two stage height and backfilled with soil, one end of the vegetation block reinforcement using the anchor reinforcement The other end further comprises the step of anchoring and fixing by concrete placing at the boundary of the backfill soil and cut surface. This is to more firmly maintain the construction state by the assembly of the unit vegetation blocks.

In addition, preferably the vegetation block to be assembled on the top of the retaining wall structure constructed by the multi-stage stacked assembly of the unit vegetation blocks are laminated in the reverse direction so that the bottom face upward. The purpose is to finish the upper end of the retaining wall structure more structurally and also use it as a walkway for walking.

In addition, in order to achieve the above object, the vegetation lake revetment construction method using the vegetation block according to the present invention is a method of constructing the vegetation lake revetment using the vegetation block according to the present invention mainly on the slope method of both eyes of the river,

(a) excavating the lower surface of the lower side which is stopped for the construction of the revetment to a predetermined depth, and casting and curing the foundation concrete there;

(b) In the form of a box with an upper surface and a rear surface open on the base concrete layer, irregular irregularities are formed on the front surface, and protruding jaw portions and planar seating portions are formed on the upper and left sides of the left and right side walls to facilitate stacking assembly. Installing the unit vegetation block in which the bottom surface is formed with drainage (water passage) holes horizontally at one level;

(c) arranging the earth-emission spill-preventing spinning sheet along a rear bottom surface of the foundation concrete layer and a bottom slope formed at the rear of the foundation concrete layer;

(d) Backfilling with relatively large stones in the space between the rear part of the foundation concrete layer, the inner space of the first-stage vegetation blocks installed on the foundation concrete layer and the rear part extending in the space and the sloped surface on which the radiating sheet is installed Stabilizing;

(e) stacking unit vegetation blocks on top of the first vegetation blocks and constructing the second vegetation blocks to two levels, and filling the inner space of the vegetation blocks and the back of the vegetation block with large stones;

(f) repeating the above-described sequential stacking arrangement and backfilling of vegetation blocks several times to the height of the mid-level of the river;

(g) stacking the vegetation blocks in one step on the vegetation blocks constructed up to the height of the water level, and backfilling the soil with the internal space of the vegetation blocks and a rear portion extending to the space;

(h) repeating the sequential stacking arrangement of the vegetation blocks on the surface of the water and the backfilling process by soil, several times to the height of the revetment design construction; And

(i) planting aquatic plants on exposed soils of unit vegetation blocks provided for each layer of vegetation blocks located on the water surface of the revetment structure completed by the repeated construction, and finishing the revetment construction. There is a characteristic in that.

Here, preferably in the series of vegetation block construction process as described above, whenever the vegetation blocks are built up to approximately every two stages height and backfilled with large stones or soil, one end of the reinforcement of the vegetation block using anchor reinforcement is used. Fixing in the groove for inserting, the other end further comprises the step of anchoring and fixing by concrete placing on the boundary portion of the back-filled large stone and earth and slope slope. This is to more firmly maintain the construction state by the assembly of the unit vegetation blocks.

In addition, preferably the vegetation block laminated on the top of the revetment structure to be built by the multi-stage stacked assembly of the unit vegetation blocks are assembled by stacking upside down so that the bottom face upward. The purpose is to finish the upper end of the revetment structure more firmly structurally and to use as a walkway.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 show a vegetation block according to the present invention, Figure 1 is an external perspective view, Figure 2 is a plan view.

1 and 2, the vegetation block 100 according to the present invention is used for the construction of the retaining wall of the road incision or the revetment of both rivers, etc., the overall appearance of the box-shaped upper and rear sides of the rectangular parallelepiped The outer surface of the front surface 101 is formed with an irregular irregular surface to give a natural stone feel, and the unit block structure on the front portion of the top surface of the left and right side walls 102, 103 and the upper portion of the front surface 101 Protruding jaw portion (101t) is formed to facilitate the stack assembly between the two, and extends to the protruding jaw portion (101t) on the left and right side walls to the lower height than the projection jaw portion (101t) on the upper left and right side walls (102, 103) Plane seating portions 102p and 103p are formed, and the bottom surface 104 is formed with a smooth drainage of rainwater and surface water penetrated into the block structure, and a through hole 104h for water passage when the block body is installed in water. do.

Here, preferably, in the planar seating portions 102p and 103p of the upper left and right side walls 102 (103), the unit block structures are laminated and assembled to a predetermined position between the stacked block structures when the retaining wall or the arc is constructed. One end of the reinforcement 110 is fixed to the flat seating portions 102p and 103p through the reinforcement 110, and the other end of the reinforcement 110 is fixed to the backfill fill surface behind the block assembly. Reinforcement grooves 110h are further formed to further strengthen each other.

Then, a method of constructing the retaining wall and the revetment using the vegetation block according to the present invention as described above will be described.

3 and 4 show the retaining wall structure constructed by the vegetation retaining wall construction method using the vegetation block according to the present invention, Figure 3 is a side cross-sectional view, Figure 4 is a front view.

3 and 4, the vegetation retaining wall construction method using the vegetation block according to the present invention is a method for constructing the vegetation retaining wall using the vegetation block of the present invention as described above mainly on the cut or cut surface of the road. The foundation concrete (floor) 301 is poured and cured at the site where the retaining wall is to be constructed at one or both edges of the road 300. Then, the unit vegetation block 100 of the present invention as described above on the foundation concrete layer 301 is arranged side by side in one step height. In addition, a soil sheet (for example, a nonwoven fabric) 302 is installed along a cut slope formed on the rear bottom surface of the foundation concrete layer 301 and the rear of the foundation concrete layer 301. Then, in the space between the rear surface of the foundation concrete layer 301, the interior space of the first stage vegetation blocks installed on the foundation concrete layer 301, and the back surface extending to the space and the cut surface on which the radiation sheet 302 is installed. Backfill with soil 303 stabilizes the construction state. In addition, the unit vegetation blocks 100 are stacked on the first vegetation blocks 100 to be stacked up to two levels, and the back spaces of the vegetation blocks 100 are filled with soil 303 at the rear surface of the vegetation blocks 100. do. Then, the sequential stacking arrangement and the backfilling process of the vegetation blocks 100 as described above are repeated a plurality of times until the retaining wall construction height.

In this way, when the retaining wall structure by the sequential construction of the vegetation blocks up to the design height is completed, the plants 304 are placed on the exposed soil of the unit vegetation blocks 100 provided for each layer of the completed retaining wall structure. Plant and finish the retaining wall construction.

On the other hand, in the above-described series of retaining wall construction process, preferably whenever the vegetation blocks 100 are built up to approximately every two stage height and backfilled with soil 303, as shown, anchor reinforcement (e.g., , φ13 reinforcing bar) 110, one end of which is fixed to the reinforcement groove 110h (see Fig. 1) of the vegetation block 100, the other end anchored by concrete placement at the boundary of the backfill soil and cut surface Anchor and secure to block 305. This is to maintain the construction state by the assembly of the unit vegetation blocks 100 more firmly.

In addition, the vegetation block, which is laminated and assembled at the top of the retaining wall structure constructed by the multi-stage stacking assembly of the unit vegetation blocks 100, is laminated and assembled upside down so that its bottom faces upward. The purpose is to finish the upper end of the retaining wall structure more structurally and also use it as a walkway for walking.

5 and 6 show the construction of the revetment structure built by the vegetation revetment construction method using the vegetation block according to the present invention, Figure 5 is a side cross-sectional view, Figure 6 is a front view.

5 and 6, the vegetation revetment construction method using the vegetation block according to the present invention is a method for constructing the vegetation revetment using the vegetation block according to the present invention mainly on the slope of both eyes of the stream, first construction For the excavation of the lower side of the lower side of the suspended work to a predetermined depth, the foundation concrete (layer) 501 is poured there and cured. Thereafter, the unit vegetation blocks used at the time of the retaining wall construction on the foundation concrete layer 501 are arranged side by side in one step height. And the earth-emission spill prevention sheet (nonwoven fabric) 502 is installed along the rear bottom surface of the base concrete layer 501 and the lower slope inclined surface formed at the rear of the foundation concrete layer 501. Then, a space between the rear portion of the foundation concrete layer 501, the inner space of the first-stage vegetation blocks installed on the foundation concrete layer 501, the rear portion extending in the space, and the inclined plane where the radiation sheet 502 is installed. Backfill with relatively large stones (503) (using river aggregates or crushed stone) to stabilize the construction. In this case, when the relatively large stones 503 are filled in the inner space of the vegetation blocks 100, only about 50% of the inner space of the block is filled. This is because these vegetation blocks are installed underwater, so as to provide a place for fish to mate and spawn.

When the first stage vegetation blocks are installed and backfilled, the unit vegetation blocks are stacked on the first stage vegetation blocks, and the second vegetation blocks are stacked up to the second height, and the inner space of the vegetation blocks and the back of the vegetation blocks are filled with large stones. Then, the sequential stacking arrangement and backfilling of such vegetation blocks are repeated several times to the height of the middle water level (M.W.L) of the stream.

In this way, when the stacking installation of the vegetation blocks 100 positioned in the water up to the height of the middle of the river is completed, the vegetation blocks 100 'are again placed on the vegetation blocks 100 constructed up to the height of the middle water. ) (The same vegetation block but marked with reference number roll 100 'in order to distinguish it from vegetation blocks installed in the water below) stacking and arranging it in one step height, and the inner space of the vegetation blocks 100' and It is backfilled with earthwork 504 on the backside extending into the space. Here, when stacking the above-ground vegetation blocks (100 ') on the water after completing the stacking of the underwater vegetation blocks 100 in this way, preferably the uppermost vegetation blocks and the large stones As shown in the upper surface of the flat portion made of filling, a separate spinning sheet 502 'is installed. This is to prevent the loss of soil 504 in the upper layer towards the lower layer filled with relatively large stones.

By the above, if the first stage stacking and back filling of the vegetation blocks 100 'above the water surface is completed, the sequential stacking arrangement of the vegetation blocks 100' on such water surface and the back filling by the earthwork 504 The process is repeated several times to the height of the raft design construction. Then, aquatic plants are exposed to the earth-filled exposed portions of the unit vegetation blocks 100 'provided for each layer of the vegetation blocks 100' positioned on the water surface of the revetment structure completed by such repeated construction. Planting 505 finishes the construction of the revetment.

In the above-described series of revetment construction process, as in the retaining wall construction process, preferably each time the vegetation blocks are built up to approximately every two stage height, one end of the reinforcement of the vegetation block by using the anchor reinforcement 110 The other end is fixed to the insertion groove, and the other end is anchored and fixed by anchor block 506 by placing concrete at the boundary between the backfilled large stone and the soil and the lower slope slope surface. This is to more firmly maintain the construction state by the assembly of the unit vegetation blocks.

In addition, preferably the vegetation block to be assembled on the top of the revetment structure to be built by the multi-stage laminated assembly of the unit vegetation block is laminated assembly upside down so that the bottom face upward. The purpose is to finish the upper end of the revetment structure more firmly structurally and to use as a walkway.

On the other hand, Figures 7 to 9 show another embodiment of the vegetation block according to the present invention, Figure 7 is an external perspective view, Figure 8 is a side cross-sectional view, Figure 9 is a plan view.

7 to 9, the vegetation block 700 of this other embodiment is not structurally significantly different from the vegetation block 100 shown in FIGS. 1 and 2. However, the rear end of the bottom surface 704 of the block structure extends to the bottom surface 704 to further form a locking step portion 704t of a predetermined height, and the scattering of fish in a predetermined portion of the inner bottom surface 704 of the block structure. The only difference is that the dragon fiber network 705 is further installed. Here, the locking step 704t as described above is to keep the laminated assembly state stable when constructing the retaining wall or the lake by stacking and assembling the unit block structures, and to create a more cozy associate and scattering space when installed in the water. . 7 to 9, reference numeral 701 denotes a front surface, 701t a protruding jaw portion, 702 a left side wall, 703 a right side wall, 702p and 703p a planar seating portion, 704h a through hole, and 710h a reinforcing groove.

10 and 11 show an example of the retaining wall construction using the vegetation block 700 of another embodiment of the above configuration, Figure 10 is a side cross-sectional view, Figure 11 is a front view.

10 and 11, the retaining wall construction method using the vegetation block 700 of this embodiment is shown in FIGS. 1 and 2 except that the vegetation block 700 is not stacked upside down on the uppermost layer. It is the same as the retaining wall construction method (see FIGS. 3 and 4) using the vegetation block 100. Therefore, the retaining wall construction using the vegetation block 100 shown in Figs. 1 and 2 described with reference to Figs. 3 and 4 without separately describing the retaining wall construction process using the vegetation block 700 of this embodiment. A description of the process will be substituted. In FIG. 10, reference numeral 710 denotes an anchor bar.

12 and 13 show an example of the revetment construction using the vegetation block 700 of the other embodiment, Figure 12 is a side cross-sectional view, Figure 13 is a front view.

12 and 13, the method of constructing the shore using the vegetation block 700 of this embodiment also does not stack the vegetation block 700 upside down on the top layer, and the vegetation block installed in the water Except for using the vegetation block 100 is shown in Figs. 1 and 2, except that the vegetation block having the fiber network 705 is installed on the bottom surface (see Figs. 5 and 6) and same. Therefore, the lanyard construction using the vegetation block 100 shown in Figs. 1 and 2 described with reference to Figs. 5 and 6 without separate description of the raft construction process using the vegetation block 700 of this embodiment. A description of the process will be substituted. In FIG. 12, reference numeral 710 denotes an anchor bar. 14 and 15 show the structure of the vegetation block according to the present invention, FIG. 14 is an external perspective view and FIG. 15 is a plan view. Referring to FIGS. 14 and 15, the vegetation block 1400 of this embodiment is further described. ), There is no structural difference from the vegetation block 100 shown in FIGS. 1 and 2. However, the overall shape of the block structure is a trapezoidal shape with different widths (ft, rt) of the front and rear surfaces, and a point where predetermined portions of the left and right side walls 1402 and 1403 of the block structure are formed with cutouts 1404s inside thereof. Here, if the rear width rt is narrowed by varying the widths (ft, rt) of the front and rear surfaces of the block structure as described above, there is an advantage that the curved construction is possible. Further, the cutout portion 1404s ) Is to laminate the unit block structures to facilitate the laminated assembly when building the retaining wall or shelter.

As described above, the vegetation block according to the present invention and the vegetation retaining wall and the revetment construction method using the same exhibit the original function as the retaining wall or the revetment by creating a space and environment for the scattering and habitat of amphibians, insects and fish in the block structure. Of course, there are advantages that can contribute to the restoration and preservation of the ecosystem.

1 is an external perspective view showing the structure of the vegetation block according to the present invention.

2 is a plan view of the vegetation block of FIG.

3 is a side cross-sectional view showing the structure of a retaining wall structure constructed using the vegetation blocks shown in FIGS. 1 and 2;

4 is a front view of the retaining wall structure of FIG.

FIG. 5 is a side cross-sectional view showing the structure of a revetment structure constructed using the vegetation blocks shown in FIGS. 1 and 2;

6 is a front view of the revetment structure of FIG.

Figure 7 is an external perspective view showing the structure of the vegetation block according to another embodiment of the present invention.

8 is a side cross-sectional view of the vegetation block of FIG.

9 is a plan view of the vegetation block of FIG.

10 is a side cross-sectional view showing the structure of a retaining wall structure constructed using the vegetation block of FIG.

FIG. 11 is a front view of the retaining wall structure of FIG. 10. FIG.

FIG. 12 is a side cross-sectional view showing a structure of a lake eye structure constructed using the vegetation block of FIG. 7; FIG.

Figure 13 is a front view of the revetment structure of Figure 12. Figure 14 is an external perspective view showing the structure of the vegetation block according to another embodiment of the present invention. Figure 15 is a plan view of the vegetation block of Figure 14;

<Explanation of symbols for the main parts of the drawings>

100,100 ', 700,700', 1400 ... (Invention) Vegetation Block 101,701,1401 ... Front

102,702,1402 ... left side wall 103,703,1403 ... right side wall

104,704,1404 ... bottom 101t, 701t, 1401t ... protrusion jaw

102p, 103p, 702p, 703p, 1402p, 1403p ... Flat Seat 110,710 ... Anchor Rebar

110h, 710h, 1410h ... Reinforcement groove 704t, 1404t ...

705 ... fiber 301,501 ... foundation concrete

302,502,502 '... Emission sheet 303,504 ... Seastone

304.Flowers 305,506 ... Anchor blocks

503 ... big stone 505 ... plants

104h, 704h, 1404h ... through hole 1404s ... incision ft ... front width rt ... rear width

Claims (12)

As it is used for construction of retaining walls of road cutouts and lakes on both sides of rivers, Overall, the rectangular parallelepiped has a box-shaped exterior with the top and the back open, and an irregular surface is formed on the outer surface of the front surface to give a natural stone feel, and the unit block is located on the front and upper ends of the left and right side walls. Protruding jaw portion is formed to facilitate the stacking assembly between the structures, and extends to the protruding jaw portion on the left and right side walls to form a flat seating portion at a relatively lower height than the protruding jaw portion on the left and right side walls, the bottom surface into the block structure Vegetation block, characterized in that the through-hole for the water flow is formed when the infiltration of rainwater and surface water smoothly and the block body is installed in the water. delete The method of claim 1, When the unit block structures are laminated and assembled to build a retaining wall or revetment, the laminated assembly state is stably maintained, and when installed in water, a coarse association and spawning space is formed to extend to the bottom of the bottom surface. The vegetation block, characterized in that the locking step of the predetermined height is further formed. The method of claim 3, wherein Vegetation block, characterized in that the fiber bottom for fish spawn is further installed on the inner bottom surface of the block structure is formed with the locking jaw portion. As a method of constructing the vegetation retaining wall mainly using the vegetation block of the present invention on the cutout or cut surface of the road, (a) curing the concrete by pouring the foundation concrete at the site where the retaining wall is to be constructed at one or both edges of the road; (b) In the form of a box with an upper surface and a rear surface open on the base concrete layer, irregular irregularities are formed on the front surface, and protruding jaw portions and planar seating portions are formed on the upper and left sides of the left and right side walls to facilitate stacking assembly. Arranging horizontally the unit vegetation blocks in which the drainage holes are formed on the bottom surface thereof in one step height; (c) installing a spinning sheet for preventing soil leakage along the cut slope formed on the rear bottom surface of the foundation concrete layer and the rear of the foundation concrete layer; (d) stabilizing the construction state by backfilling the soil with a space between the rear part of the foundation concrete layer, the inner space of the first-stage vegetation blocks installed on the foundation concrete layer, and the rear portion extending to the space and the cut surface on which the radiation sheet is installed; step; (e) stacking unit vegetation blocks on the first stage vegetation blocks again and constructing the second vegetation blocks up to two levels, and backfilling the interior spaces of the vegetation blocks with their soil; (f) repeating the sequential stacking arrangement and backfilling process of vegetation blocks as many times as the retaining wall construction height; And (g) planting vegetation blocks on the soil-filled exposed areas of the unit vegetation blocks provided for each layer of the retaining wall structure assembled by the repeating construction to finish the retaining wall construction. Vegetation retaining wall construction method. delete delete As a method for constructing vegetation lakes by using the vegetation block according to the present invention mainly on the slope of both eyes of the river, (a) excavating the lower surface of the lower side which is stopped for the construction of the revetment to a predetermined depth, and casting and curing the foundation concrete there; (b) In the form of a box with an upper surface and a rear surface open on the base concrete layer, irregular irregularities are formed on the front surface, and protruding jaw portions and planar seating portions are formed on the upper and left sides of the left and right side walls to facilitate stacking assembly. Installing the unit vegetation block in which the bottom surface is formed with drainage (water passage) holes horizontally at one level; (c) arranging the earth-emission spill-preventing spinning sheet along a rear bottom surface of the foundation concrete layer and a bottom slope formed at the rear of the foundation concrete layer; (d) Backfilling with relatively large stones in the space between the rear part of the foundation concrete layer, the inner space of the first-stage vegetation blocks installed on the foundation concrete layer and the rear part extending in the space and the sloped surface on which the radiating sheet is installed Stabilizing; (e) stacking unit vegetation blocks on top of the first vegetation blocks and constructing the second vegetation blocks to two levels, and filling the inner space of the vegetation blocks and the back of the vegetation block with large stones; (f) repeating the above-described sequential stacking arrangement and backfilling of vegetation blocks several times to the height of the mid-level of the river; (g) stacking the vegetation blocks in one step on the vegetation blocks constructed up to the height of the water level, and backfilling the soil with the internal space of the vegetation blocks and a rear portion extending to the space; (h) repeating the sequential stacking arrangement of the vegetation blocks on the surface of the water and the backfilling process by soil, several times to the height of the revetment design construction; And (i) planting aquatic plants on exposed soils of unit vegetation blocks provided for each layer of vegetation blocks located on the water surface of the revetment structure completed by the repeated construction, and finishing the revetment construction. Vegetation shore revetment construction method using a vegetation block, characterized in that. delete delete delete The method of claim 8, Prior to performing the step (g), the vegetation revetment construction method using a vegetation block, characterized in that to install a separate radiating sheet on the upper surface of the flat portion consisting of the top of the vegetation blocks and the large stone filling of the rear part.