KR100327465B1 - KORESWall system - Google Patents

Abstract

The present invention provides a reinforced soil retaining wall that can accommodate the horizontal earth pressure generated in the soil and its construction method. In the construction method of the reinforced soil retaining wall according to the present invention, first, a plurality of soil layers 201, 202, and 203 are piled up to form a reinforced soil body 2000. Next, a front part layer of one layer is formed on the front surface of the formed reinforcement soil 2000 at a predetermined distance from the front part, and the front part layer 301, 302, 303 is filled between the reinforcement soil and the front part layer of the one layer with a filling material. To form. In addition, the front part layer forming step is repeatedly performed to the upper part of the one front part layer to build a front part 3000 including a plurality of front part layers. Therefore, the horizontal earth pressure generated in the reinforcement soil does not affect the front portion, and a separate reinforcement soil retaining wall according to the present invention is formed in which the reinforcement soil and the front portion are separated from each other.

Description

Reinforced soil retaining wall and its construction method {KORESWall system}

The present invention relates to a reinforcement soil retaining wall, and more particularly, the reinforcement soil and the front block are formed separately so that the horizontal earth pressure generated in the soil does not affect the front block by accommodating the induced horizontal displacement generated during the formation of the reinforcement soil. It is related with a separate reinforced earth retaining wall.

Reinforced soil retaining wall means the reinforcement embedded in the soil and the soil

As a retaining wall composed of a front portion made of a block or plate on the front surface, generally, the reinforcement embedded in the soil is connected to the front portion to serve as a structure in which the soil-reinforcement-front portion is integrated.

In such a reinforced soil retaining wall, the horizontal earth pressure generated during the reinforcement earth construction of the rear surface should be able to be accommodated structurally. If such horizontal earth pressure is not acceptable, horizontal displacement may be caused in the front part. Particularly, when the soil on the back is constructed at the same time as the front part by backfilling, the horizontal displacement caused at this time appears cumulative as it goes upward. In some cases, the horizontal earth pressure is excessively caught and the front part collapses. There is also. Therefore, a reinforcing soil retaining wall and a construction method thereof capable of accommodating horizontal earth pressure generated in the construction process of reinforcing soil have been desired.

Figure 1 shows a conventional block-type reinforced earth retaining wall, Figure 2 shows a construction method of such a reinforced earth retaining wall. First, referring to FIG. 1, the conventional block type reinforcement soil retaining wall has a soil body 10 formed of a plurality of soil layers 30, 30 ′, and 30 ′, and a plurality of block layers 50, 50 ′, 50 ′ in front. Consists of a front block 20 made of a) and a mixed aggregate, crushed stone, gravel, sand and the like is made up of a filler material 35 is filled between the front portion 20 and the soil 10, the soil layer of Underneath is a grid 14, which is a reinforcement, which extends between the block layers. Figure 2 shows a construction method of such a conventional reinforced soil retaining wall. As shown, the conventional reinforcement earth retaining wall is a reinforcement earth retaining wall is constructed through the process of the installation of the front block, backfill fill and compaction of the soil layer, the reinforcing material is laid repeatedly. Here, the horizontal soil pressure of each soil layer is directly received by the front block, and the horizontal soil pressure generated in each soil layer affects each front block during the backfilling. These horizontal earth pressures act cumulatively as the front block and the soil layer are constructed at the same time, which can eventually cause the cumulative horizontal displacement of the front block. 3 shows this example. In other words, the horizontal displacement gradually increases from the construction plan line to the upper portion.

As described above, in the conventional reinforced soil retaining wall, the horizontal displacement of the front part may occur, particularly cumulatively, due to the influence of the horizontal earth pressure generated in the process of forming the soil body on the back side in terms of its structural form and construction method. Therefore, as described above, there has been a demand for reinforcing soil retaining walls that can accommodate such horizontal displacement.

The retaining walls are quite high, so if they are erected vertically they can give psychological overwhelmingness to the passers-by. Therefore, it is preferable to construct so that it may incline to the back side. However, the horizontal earth pressure caused by the soil on the back makes this slope construction difficult. Therefore, there is also a need for reinforcement soil retaining walls that can accommodate the horizontal earth pressure generated during the construction of the soil.

The present invention satisfies the above needs and demands. An object of the present invention is to provide a reinforcing soil retaining wall and a construction method thereof capable of accommodating horizontal earth pressure generated during the formation of reinforcing soil. This reinforcement earth retaining wall prevents the induced horizontal displacement of the front part of the retaining wall and also allows the front part to be inclined easily to the rear side.

In the construction method of the reinforced soil retaining wall according to the present invention, first, a plurality of soil layers are stacked to form a reinforced soil body. Next, a front part layer of one layer is formed on the front surface of the formed reinforcement soil spaced a predetermined distance therefrom, and a front part layer is formed between the reinforcement soil and the front part layer of the one layer by filling with a filling material. Then, the step of forming the one front part layer is repeated to the upper part of the one front part layer to construct a front part composed of a plurality of front part layers. Therefore, a separate reinforcement soil retaining wall according to the present invention, in which the reinforcement soil and the front part are formed apart, are constructed. In the case of the construction according to the present invention, since the front surface of the front surface is formed after the reinforcement of the back surface is first formed, it is possible to prevent the horizontal earth pressure that acted cumulatively on the front surface by constructing the front portion of the plurality of layers. do. In the present invention, in constructing the one front part layer, it is preferable to further include the step of connecting the reinforcement body and the one front part layer with a connecting material. In this case, the connection member is to hold the one front portion layer is more firmly supported on the front portion. In one embodiment of the present invention, when constructing the reinforcement soil layer constituting the reinforcement soil, the reinforcing material is laid on the lower portion of the individual reinforcement soil layer so that the front end of the reinforcement is protruded to the front and the front projection portion of the reinforcement as the connecting material It lies between the front layer. For example, a grid is laid at the bottom of the soil layer, with its tip extending between the front block layers.

In one embodiment of the present invention, the process of forming a plurality of soil layers to form a reinforcement soil is first wrapped with a fiber material for civil engineering from the lower surface to the upper surface, the first to decrease the width toward the rear end A soil layer is formed, and a second soil layer is formed on the rear portion of the first soil layer by backfilling to form a reinforced soil layer. Next, by repeating the step of forming the one reinforcing soil layer on top of the one reinforcing soil layer, the reinforcing soil layer forms a plurality of layers, thereby constructing the reinforcing soil. Here, the first soil layer is formed by installing a reference frame on its front surface, laying a civil fiber material over the reference frame, laying soil on the civil fiber material, and then placing the civil fiber on the laid soil. It can be done by covering the material. In addition, the formation of the second soil layer may be made through backfilling and compacting the soil after the formation of the first soil layer in the rear of the first soil layer. In this case, since the civil fiber material receives the horizontal earth pressure of each soil layer, the transmission of the horizontal earth pressure is prevented, thus accommodating the induced horizontal displacement of the shear surface due to the horizontal earth pressure.

In another aspect, the separable reinforced earth retaining wall according to the present invention is a civil engineering fiber material is wrapped from the lower surface to the upper surface beyond the front surface, the first soil layer and the first soil layer is reduced in width toward the rear end, the first soil layer One reinforcement soil layer consisting of a second soil layer is formed by the backfill is formed in the rear portion of the reinforcement is formed by stacking a plurality of layers. In addition, it is formed spaced apart from the reinforcement body by a predetermined distance, and has a front portion formed by forming a plurality of layers of a plurality of front portion supported by the connecting material with respect to the reinforcement soil. Further, between the reinforcement body and the front portion is filled with a filler. In one embodiment of the present invention, the connecting member for supporting the front layer with respect to the reinforcing soil is a reinforcing material embedded in the lower portion of each reinforcing soil layer, the front end portion of the reinforcement soil being extended between the front block layer The front layer is connected to the sieve. For example the reinforcement is a geogrid. In addition, the filler is composed of mixed aggregate, crushed stone, gravel, sand and the like.

The invention will now be more fully understood by the embodiments described with reference to the accompanying drawings.

1 is a view showing a conventional block-type reinforced earth retaining wall,

Figure 2 is a view showing a construction method of the reinforced earth retaining wall of Figure 1,

3 is a view showing that in the conventional reinforced earth retaining wall, the horizontal displacement increases cumulatively from the construction plan line to the upper part due to the accumulation of the horizontal earth pressure,

4 to 9 is a view showing the step of constructing a separate type reinforced soil retaining wall according to the invention,

10 is a view showing another embodiment of the present invention.

First, Figure 4 shows the step of laying the foundation for building the front block constituting the front portion in the construction of the separate reinforcement soil retaining wall according to the present invention. That is, in the ground 100 where the retaining wall is to be installed, the foundation ground 120 is dug at the front block installation point on the front surface, and the rubble layer 123 having good drainage is installed on the bottom thereof, and the ground 110 on the rear surface is compacted and bottomed. Choose.

Next, a plurality of soil layers are stacked on the upper surface 110 of the rear surface to build a reinforced soil body.

FIG. 5 illustrates a process of installing a soil layer constituting the first layer in a step of stacking a plurality of soil layers to form a reinforced soil body.

First, the grid 114, which is a reinforcement, is installed at the bottom of the ground 110, and a reference frame 116 is installed on the grid 114 at a position immediately behind the foundation ground 120. Next, the civil engineering fiber material 118 is spread over the reference frame 118. This process is shown in Fig. 5 (a). At this time, the grid 114 extends beyond the ground 110 to extend to the base portion 120. The tip of the extended grid 114 is placed between the block layers provided on the front surface as described below to serve as a connecting material.

Next, the earth and sand is laid on the ground 110 in which the reinforcing material 114, the reference frame 116, and the civil engineering fiber material 118 are sequentially placed. The civil engineering fiber material 118 is then covered with respect to the laid soil. In this way, the civil engineering fiber material is wrapped from the lower surface to the upper surface beyond the front portion, and the first earth layer 130 is formed to decrease in width toward the rear end thereof. This process is shown in Figure 5 (b).

Next, earth and sand are laid in the rear of the first soil layer 130 to perform backfilling and compacting. In this way, a second soil layer formed at the rear of the first soil layer is formed. Next, the reference frame 116 is removed. This process is shown in Figure 5 (c).

In this way, a soil layer is formed. Next, the above-described work of forming a soil layer on the soil layer 201 formed above is repeated. 6 (a) and 6 (b) are constructed by repeating the same operation as that of forming the first soil layer 201 described above by the second soil layer 202 on the first soil layer 201. Seems to be a process.

The work of forming such a series of soil layers is repeatedly performed to build a reinforced soil body 2000 composed of a plurality of soil layers. 7 shows a reinforced soil body 200 formed of multiple layers of soil layers 201, 202, and 203. As shown, the leading end of the grid 114 installed at the bottom of each soil layer is extended to protrude beyond the front of the reinforced soil body.

In this way, the reinforcement soil 2000 is first constructed. Next, the front block 3000 is constructed by installing a plurality of front blocks 301, 302, and 303 in a plurality of layers at a predetermined distance from the reinforcement soil 2000. That is, when the stabilized soil reinforcement (2000) is stabilized, the front block (301) is mounted at a distance from the reinforcement soil to the front by a predetermined distance, and the front end of the grid 114 is placed on the upper surface of the front block, Fill the filling material consisting of mixed aggregate, crushed stone, gravel or coarse sand in between. In this way, a single front block layer is formed. This process is shown in FIG.

Next, the step of forming the front block layer 301 as described above is repeatedly performed. That is, the front block 302 is piled up again on the one front block layer 301 on which the grid 114 extending thereon is placed, and the filling material is filled between the reinforcement soil 2000, and the front surface on the upper surface of the block 302 again. The block 303 is stacked and the extended grid 114 is placed on the top of the front block 303 and filled. Through this series of iterations, a plurality of front block layers 3000 are formed.

As described above, first, a reinforcement soil 2000 formed of a plurality of soil layers 201, 202, and 203 is constructed, and a shear portion 3000 formed of a plurality of shear layer layers 301, 302, and 303 at a spaced distance therefrom. ), The reinforcement earth retaining wall according to the present invention is completed. The split reinforcement earth retaining wall according to the invention thus completed is shown in FIG. 9.

In this embodiment, the grid as a reinforcing material plays a role as a connecting material at the same time. However, after the formation of the reinforcement soil 2000 ', it is also possible to connect each layer of the reinforcement soil and each layer of the front surface by using a hook-shaped connecting member 214 while stacking each block layer. This structure is shown in FIG. In FIG. 10, a grid 114 ′ as a reinforcing material is installed inside the civil fiber material 118 ′.

Separable reinforcement soil retaining wall according to an embodiment of the present invention, as shown in Figures 9 and 10, is wrapped from the lower surface to the upper surface with a civil fiber material 118, the width is reduced toward the rear end A plurality of reinforcement soil layers 201, 202, or 203 comprising a first soil layer 130 and a second soil layer 150 which are stacked on the rear of the first soil layer 130 with a backfill are formed. A plurality of front layer layers 301 and 302 stacked in layers to form the reinforcement soil 2000 and spaced apart from the reinforcement soil 2000 by a connecting member 114 or 214 with respect to the reinforcement soil. , 303 forms a plurality of layers to form the front portion. In addition, between the reinforcement soil 2000 and the front portion 3000 is filled with a filler.

In the separation type reinforced soil retaining wall and the construction method thereof according to the present invention, the earth pressure acting on the front part is caused only by the earth pressure by the filling material filled between the reinforced earth body and the front part. That is, since the soil fiber material 118 receives horizontal earth pressure for each soil layer 201, 202, and 203, the soil body 2000 in which the plurality of soil layers are formed in plural layers is formed first, which is induced and accumulated in the soil itself. As a result, the horizontal earth pressure generated by the soil itself is not transmitted to the front part. That is, the horizontal earth pressure of the soil is accommodated by the soil itself, and the horizontal pressure received by the shear part is only the pressure of the filling material between the soil and the front part. Therefore, the horizontal earth pressure is accommodated by the present invention, whereby, for example, the front horizontal portion can be prevented and the front portion can be tilted to the rear side easily. As such, it will be appreciated that the object of the present invention has been achieved.

Although the present invention has been described with reference to the examples, it will be apparent that the present invention is not necessarily limited thereto, and the scope of the present invention is defined by the following claims.

Claims (11)

Reinforced soil retaining wall, The civil engineering fiber material is wrapped from the lower surface to the upper surface of the civil engineering material, and the first earth layer is reduced in width toward the rear end thereof, and the second earth layer is formed by the backfill of the first earth layer. One reinforcement soil layer comprising a reinforcement soil is formed by stacking a plurality of layers; A front part formed to be spaced apart from the reinforcement soil at a predetermined distance, and having a plurality of front part layers supported by the connecting member with respect to the reinforcement soil; And Separating reinforcement soil retaining wall comprising a filler filled between the reinforcement body and the front portion. The method of claim 1, The connecting member supporting the front layer with respect to the reinforcement soil is a reinforcement embedded in the lower portion of each reinforcement soil layer, characterized in that the front end extends so as to be placed between the front block layer. The method according to claim 1 or 2, Separating reinforcement earth retaining wall, characterized in that the reinforcement is a geogrid. In any one of the foregoing, The filling material is a separate reinforcement soil retaining wall, characterized in that the mixture is composed of mixed aggregates, crushed stone, gravel, sand and the like. Stacking a plurality of soil layers to form a reinforced soil body; Forming a front part layer on a front surface of the reinforcement soil at a distance from the front part and forming a front part layer between the reinforcement body and the front part layer of the one layer with a filler; And Repeating the one front part layer forming step to the top of the one front part layer, comprising the step of constructing a front part consisting of a plurality of front part layer, the reinforced earth retaining wall, characterized in that the reinforcement soil and the front part is formed spaced apart. Construction method. The method of claim 5, In constructing the one front part layer The method of claim 1, further comprising the step of connecting the reinforcement body and the one front portion layer with a connecting material. The method according to claim 5 or 6, In constructing the reinforcement soil layer constituting the reinforcement body, Laying the reinforcement in the lower portion of the front end of the reinforcement and the front projection of the reinforcement of the reinforcement structure of the reinforced earth retaining wall, characterized in that the connection between the one front part layer as a connecting material. The method according to claim 5, 6 or 7, Forming the reinforced earth body, A civil engineering fiber material is wrapped from the lower surface to the upper surface, and is formed from the lower surface to the upper surface, and forms a first soil layer that decreases in width toward the rear end thereof, and a second soil layer is formed by back-filling the rear surface of the first soil layer. Forming a reinforcement earth layer; And a second step of repeating the first step above the one reinforcing soil layer to form a plurality of layers of reinforcing soil layers. The method of claim 8, In the first step of forming the one reinforced soil layer, Formation of the first soil layer is; It is made by installing a reference frame on its front surface, spreading the civil engineering fiber material over the reference frame, laying soil on the civil engineering fiber material, and then covering the civil engineering fiber material on the laid soil. Construction method of separated reinforced soil retaining wall. The method of claim 9, Forming the second soil layer; After the formation of the first soil layer, the earth and sand is laid in the rear of the first soil layer, and the method of constructing the reinforced soil retaining wall, characterized in that it is made through the back filling and compacting operation. The method of claim 7, wherein The reinforcing material is a construction method of a separate reinforced soil retaining wall, characterized in that the geogrid.