KR101132697B1 - Reinfored earth retaining wall and construction method on the badness ground forcasted settlement - Google Patents

Abstract

PURPOSE: A reinforced soil retaining wall for the ground where subsidence is expected and a construction method thereof are provided to securely support a reinforced soil retaining wall part installed against external forces. CONSTITUTION: A reinforced soil retaining wall(300) for the ground where subsidence is expected comprises a reinforced soil body(130), support connectors(140), an exterior finishing reinforced soil retaining wall part(190), space connectors(180), and a back filler(200). The reinforced soil body is formed by piling multiple soil layers(120). The support connectors are installed on the soil layers. The exterior finishing reinforced soil retaining wall part is formed by piling up exterior finishing reinforced soil retaining walls(191). The space connectors connect the support connectors to the exterior finishing reinforced soil retaining wall part. A space between the exterior finishing reinforced soil retaining wall part and the reinforced soil body is filled with the back filler.

Description

Reinforced earth retaining wall and construction method on the badness ground forcasted settlement}

The present invention relates to a reinforcement soil retaining wall applied to a poor ground where settlement is expected, and a construction method thereof. Reinforced soil retaining wall and its construction method which can be firmly supported against settlement, earthquake and other harmful external force and are expected to settle down to prevent collapse or deformation of reinforced wall retaining wall.

In general, the retaining wall refers to a wall structure for preventing the collapse of the soil by resisting the earth pressure, and is often used to efficiently use land in mountainous lands and high land prices.

In other words, it is used to pile up soil, cut down mountains, or fill up the coast. To prevent the collapse of soil, it was common to build retaining walls made of stone, concrete, and wire mesh panels on the banks and side walls of the dike.

In addition, it is widely built for the construction of apartment complexes and the safety of slopes, the construction of bridge shift wing walls, and other waterway works.

However, the concrete retaining wall is vulnerable to cracks from the inside because it is installed close to the soil to be reinforced, there are problems such as height limitation, excessive cost of foundation treatment, difficult construction in winter and shortening of construction period, earthquake, heavy rain Stability of retaining wall due to collapse of backfill soil during sudden accidents such as fire and explosion was weak.

On the other hand, in the case of the steel structure is effective in shear resistance from the soil, but there were problems that are easily corroded.

As an alternative to solve this problem, the construction of reinforced earth retaining wall using geosynthetics reinforcement (especially geogrid reinforcement), which enables excellent economic feasibility, free shape of the front wall, short construction period, and earthquake resistant structure Increased.

Reinforcement soil retaining wall refers to a retaining wall composed of a frontal body consisting of a soil body on the back, a reinforcement embedded in the soil, and a block or plate on the front surface. The addition serves as an integrated structure.

In such a reinforced soil retaining wall, the settlement and horizontal earth pressure generated during the construction of the reinforced soil on the back should be accommodated structurally.

If the settlement of the foundation ground is insufficient, such as poor ground where settlement is expected, such settlement or horizontal earth pressure cannot be accommodated, horizontal displacement may occur in the front part. Particularly, when the soil on the back is constructed at the same time as the front part by the backfilling soil, the sedimentation caused at this time, but the horizontal displacement of the front part accumulates as it goes upward, and in some cases, the horizontal earth pressure is excessively caught and the front part collapses. In some cases.

Therefore, there has been a demand for a reinforcement soil retaining wall and a construction method thereof capable of accommodating sedimentation or horizontal earth pressure generated in the construction process of reinforcement soil.

The conventional block-type reinforcement soil retaining wall has a backing body 10 made of a plurality of soil layers 11 and a front block 20 made of a plurality of block layers 21 on the front side, as shown in FIG. And it is composed of a mixed aggregate, crushed stone, gravel, sand, etc., respectively or mixed with the filling material 30 is filled between the front portion 20 and the soil body 10, the bottom of the soil layer is laid a grid as a reinforcement material It extends between the block layers.

The conventional reinforcement soil retaining wall construction method is a reinforcement soil retaining wall is repeatedly constructed through the process of the installation of the front block, backfill filling and compaction of the soil layer, laying the reinforcing material.

Here, the horizontal earth pressure generated in each soil layer during backfilling on the ground with insufficient foundation support such as poor ground where settlement is expected to affect the front block.

This horizontal earth pressure can accumulate as the front block and the soil layer are constructed at the same time as shown in the accompanying drawings, which may eventually cause a cumulative horizontal displacement of the front block.

That is, it accumulates toward the upper part from the construction plan line and shows that the horizontal displacement increases.

As described above, in the conventional reinforced soil retaining wall, the horizontal displacement of the front part may be accumulated due to the influence of the settlement and the horizontal earth pressure generated during the soil formation process of the rear surface 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 present invention was developed in order to solve various problems as follows. The purpose of the present invention is to support the supporting connection material embedded in the reinforcement earth retaining wall and the soil layer as a gap connecting material, so as to prevent harmful external force such as ground subsidence or earthquake. The present invention provides a reinforcing soil retaining wall and a construction method thereof applied to a poor ground in which a settlement capable of firmly supporting a reinforced reinforcing soil retaining wall portion is expected.

In order to achieve the above object, the present invention is a fiber reinforcement is wrapped around the bottom surface and the front surface and a portion of the upper surface, to form a soil layer having a single-layer structure is formed by the bent portion of the L-shape formed in the back of the upper surface; And a reinforcement soil formed by constructing a plurality of soil layers, and a fixing body having a fastening groove which is installed on the upper surface of the soil layer, the front protruding to the outside of the soil layer, and the rear end of the spacer is fastened. The support is installed at a predetermined distance, and the support connecting member made by fastening the reinforcing material connecting the fixing body and the support, and the outer reinforcement earth retaining wall is installed at a distance away from the reinforcement soil and the gap connecting member is installed on the upper surface To form a plurality of layers of the external finishing reinforcement soil retaining wall, the external finishing reinforcement soil retaining wall and the support edge It consists of a gap connecting material for connecting and fixing the binder and the back filling material filled in the space between the outer reinforcement soil retaining wall portion and the reinforcement body.

The present invention has the following effects.

First, there is an effect of blocking the deformation or collapse of the retaining wall portion of the external reinforcement earth reinforcement.

Second, since the external connection reinforcement soil retaining wall and the supporting connection material embedded in the reinforcement soil are fixed by various types of gap connecting materials, there is an advantage that the outer wall finishing reinforcement soil retaining wall can be constructed.

Third, by improving soil defects by constructing soil layers, there is an effect of blocking horizontal displacement caused by erosion or horizontal earth pressure.

1 to 2 is a cross-sectional view showing the configuration of the conventional block-type reinforcement retaining wall and state of use
3 is a cross-sectional view showing the overall configuration of the present invention.
4 to 5 are plan views showing the configuration of the present invention.
6 to 10 is a cross-sectional view showing the configuration of the present invention the support connecting member
11 to 16 is a cross-sectional view showing the configuration of the present invention the spacer connector
17-18 is a cross-sectional view showing a state of use of the present invention

Hereinafter, described in detail by the accompanying drawings for carrying out the present invention in detail.

Figure 3 is a cross-sectional view showing the overall configuration of the present invention, Figures 4 to 5 is a plan view showing the configuration of the present invention, Figures 6 to 10 is a cross-sectional view showing the configuration of the support connecting member of the present invention, Figures 11 to 16 Is sectional drawing which shows the structure of the spacer connection member of this invention, and FIGS. 17-18 are sectional drawing which showed the use condition of this invention. Its reference numeral 300 denotes a reinforcement soil retaining wall is installed on the poor ground which is expected to sink.

The reinforcement soil retaining wall 300 is a reinforcement soil body 130 is made by constructing a plurality of soil layers 120 having a single layer structure in a plurality of layers, and the gap connecting member 180 is installed forward while being installed on the upper surface of the soil layer 120 The support connecting member 140 and the outer finishing reinforcing soil retaining wall 191 are constructed in a plurality of layers, the outer finishing reinforcing soil retaining wall 190 and the outer finishing reinforcing soil retaining wall 190 and the connection connecting member 140 are fixed to each other. The gap connecting member 180 and the outer finishing reinforcing soil retaining wall portion 190 and the backfill material 200 is filled in the space between the reinforcement body 130.

First, laying the fiber reinforcement 110 to the bottom surface of the poor ground is expected to settle in the ground and lay the soil to the upper surface.

At this time, the earth and sand is filled with soil from the front of the fiber reinforcement 110 while filling the poor ground, when the soil is a certain height folded the front of the fiber reinforcement 110 to the upper side to cover the upper surface and the be-shaped bent portion ( The soil is laid so that 111 is embedded in the soil, thereby completing one soil layer 120 having a single layer structure.

On the upper surface of the soil layer 120, as shown in the accompanying drawings, a plurality of support connecting members 140 to which the space connecting member 180 is fastened in the front at a certain interval is installed.

The support connecting member 140 has a square or various shapes protruding to the outside of the soil layer 120 to form a fixed body 150 and a predetermined distance to the rear of the fixed body 150 to support various shapes 170 ).

And it is made by connecting the reinforcing member 160 made of steel rods, rebar, square rods, etc. to be fixed by connecting the fixing body 150 and the support 170, the band-shaped reinforcement of the synthetic resin material as shown in Figure 5 The fixture 150 and the support 170 are formed together.

In front of the fixing body 150 is fixed to the gap connecting member 180 is connected to the outer wall finishing reinforced retaining wall 190.

As such, after installing a plurality of support connecting members 140 on the top surface of one soil layer 120, the fiber reinforcement 110 is laid on the top surface of the soil layer 120.

In this case, as described above, when the soil is filled from the front of the fiber reinforcement 110, and the soil is at a certain height, the front of the fiber reinforcement 110 is folded upward to cover the upper surface and the bent portion 111 of the L-shape into the inside of the soil. Soils are laid to be landfilled to complete a second soil layer 120 having a single layer structure.

At this time, the support connecting member 140 is embedded in the earth and sand to maintain a firmly fixed state. Thus, the reinforcing soil body 130 is formed by repeatedly constructing the formation of the soil layer 120 continuously.

Another form of the support 170 and the reinforcement 160 of the support connecting member 140 is as follows.

As shown in FIG. 6, the support 170 is formed by a manual block 171 that is a rectangular block, and has an L-shaped insertion groove 172 formed on its upper surface. The reinforcement 160 is fastened and its tip is fixed to the rear of the fixture 150.

In addition, the support 170 is formed in the form of a plate 173, such as steel, stone, concrete, as shown in Figure 7 attached, and forms a hole 174 in the center thereof.

The hole 174 is fastened to the reinforcing member 160 made of steel rods or reinforcing bars and the like and fixed to the rear end of the fixing body 150.

In addition, the support 170 is formed of a closed coupling member 175 in which the support and the reinforcement are integrally formed as shown in FIG. 8, and the front end of the support 170 is fixed to the rear of the fixture 150.

In addition, as shown in FIG. 9, the reinforcing member and the support are integrally formed with a steel bar 177 having a bent portion 176 having a rear end bent in an L shape, and the front end of the reinforcing member 150 is rearward. Fixed installation.

The steel bar 177 may be formed by using reinforcing bars and square bars.

The support connecting member 140, as shown in the accompanying drawings, Figure 10 is bent back to form a support 170, which is a flat iron 178 out of the ship, the reinforcement having a predetermined length on both sides of the flat iron 178 Fasten 160.

Then, the front end of the reinforcing member 160 is fastened by fixing with two fixing members 150 installed at the front.

As described above, when the support layer 140 of various types is installed between the soil layer 120 and the soil layer 120 to construct the reinforcement soil 130, and stability is achieved, the external finishing reinforcement soil retaining wall 191 is reinforced with soil ( 120 is installed in a plurality of layers at a predetermined distance away from the front to build the exterior reinforcement soil retaining wall portion 190.

At this time, the outer finishing reinforcing soil retaining wall 191 is installed on the upper surface of the concrete foundation 199 installed on the ground.

The outer finishing reinforcing soil retaining wall 191 forms an insertion groove so that the front end of the gap connecting member 180 is inserted into the upper surface as a rectangular concrete block 192.

In addition, the outer reinforcing soil retaining wall can be used to form a panel 193 or a wire mesh panel 194 formed with a plurality of connection rings 194 on the back, as shown in Figure 11 attached.

In this way, the exterior reinforcement soil retaining wall 191 is constructed by selecting one of the blocks, the panel 193, or the wire mesh panel 194 to form the exterior reinforcement soil retaining wall 190.

The outer reinforcement earth retaining wall retaining wall 191 is firmly supported by connecting the gap connecting member 180 to the fixing member 150 of the support reinforcing soil retaining wall 191 and the support connector 140 protruding forward of the soil layer 120. Be sure to

The gap connecting member 180 is used to form differently depending on the outer reinforcement retaining earth retaining wall 191 according to the block 192, panel 193 or wire mesh panel 194.

First, when the external finishing reinforcement soil retaining wall is a concrete block 192, as shown in FIG. 12, each of the fixed blocks 150 discharged to the front of each block 192 and the soil layer 120 is closed. Connect to the connecting material 181 to install.

At this time, the front end of the closed coupling member 181 is inserted into the insertion groove of the block 192, and the rear end is fastened to the fastening groove formed in the fixing body 150 to be firmly fixed.

In addition, the spacer 180 is formed in each of the fixing body 150 installed to be discharged to the front of the insertion groove 192a and the soil layer 120 formed in each block 192 as shown in FIG. The fastening grooves are connected to each other by a band-shaped connecting member 182 to fix them.

In addition, the spacer 180 is a fastening groove formed in each of the fixing body 150 installed in the insertion groove formed in each block 192 and the front of the soil layer 120 as shown in the accompanying drawings, Figure 14 It is fixed by connecting with a steel bar connecting member 183 made of a T-shaped steel bar or rebar.

In addition, the gap connecting member 180 is used to install the fiber reinforcing material 184 from the upper surface of the block 192 to the upper surface of the fixing body 150 as shown in the accompanying drawings.

When the exterior reinforcement earth retaining wall is a panel 193 having a plurality of connection rings 193 formed on the rear surface, as shown in FIG. 11, the connection ring 193a and the fixing body 150 of the panel 193 are attached. It is fixed by connecting the fastening groove with a band-shaped connecting member (185).

In addition, as shown in FIG. 16, the grid-shaped reinforcement 186 is installed on the upper side of the wire mesh panel 194, and the rear end thereof is fastened to the fixture 150.

At this time, the lattice-shaped reinforcement 186 may be formed of a fiber or wire mesh to be used.

As described above, the outer finishing reinforcing soil retaining wall 191 and the fixing body 150 are fixedly installed with various types of gap connecting members 180, and then the outer finishing reinforcing soil retaining wall portion 190 is constructed, and the outer finishing reinforcing soil retaining wall portion 190 and the reinforcing soil are constructed. Good quality earth and sand, amber stone, crushed stone, coarse aggregates and fine aggregates, or the like, into the spaces between the sieves 130, respectively, to fill the backfill 200.

At this time, the outer finishing reinforcing soil retaining wall 191 and the gap connecting member 180 for supporting the soil layer 120 is naturally embedded in the backfill material (170).

As shown in FIGS. 3, 17, and 18, after installing the first exterior reinforcement earth retaining wall 191, the second exterior finishing reinforcement earth retaining wall 191 is formed on the upper surface of the first exterior reinforcement earth retaining wall 191. After installing and fixing the gap connecting member 180 discharged to the outside of the soil layer 120 with the external finishing reinforcement soil retaining wall 191, the backfill material 200 to the space between the external finishing reinforcing soil retaining wall 191 and the reinforcement body 130 Fill it up.

Then, the third external finishing reinforcing soil retaining wall 191 is installed on the upper surface of the second external finishing reinforcing soil retaining wall 191 and the gap connecting member 180 discharged to the outside of the soil layer 120 is fixed with the external finishing reinforcing soil retaining wall 191. After filling the backfill material 200 into the space between the outer reinforcement soil retaining wall 191 and the reinforcement body 130.

Since the above process is continuously repeated, the outer wall finishing reinforced retaining wall part 190 of a plurality of layers is completed.

300: reinforced soil retaining wall 110: fiber reinforcement
111: bending part 120: soil layer
130: reinforced soil retaining wall 140: support connecting member
150: fixed body 160: reinforcing material
170: support body 180: gap connecting material
190: exterior wall reinforcement soil retaining wall portion 191: exterior wall reinforcement soil retaining wall
200: backfill

Claims (8)

The fiber reinforcement envelops the bottom, front and part of the upper surface, and forms a soil layer having a single layer structure in which the bent portion of the L-shape is embedded in the soil at the rear of the upper surface, and the soil layer is constructed by forming a plurality of layers. Wow;
It is installed on the upper surface of the soil layer, the front is protruding to the outside of the soil layer is formed with a fixing groove having a fastening groove for fastening the rear end of the gap connecting member, the support body is installed at a certain distance to the rear of the fixing body, A support connecting member formed by fastening a reinforcing member connecting the supports to each other;
An outer finishing reinforcing soil retaining wall installed at a predetermined distance from the reinforcing soil and having a gap connecting member installed on an upper surface thereof, the outer finishing reinforcing soil retaining wall having a plurality of layers formed therein;
A gap connecting member for fixing the external finishing reinforcement soil retaining wall and the support connecting member to each other;
Reinforcement soil retaining wall is applied to the poor ground is expected to settle, characterized in that the filling material is filled in the space between the outer reinforcement soil retaining wall portion and the reinforcement body. delete delete delete delete delete delete The fiber reinforcement surrounds the bottom surface and the front and a part of the upper surface, and forms a soil layer having a single-layer structure in which the bent portion of the L-shape is embedded in the soil surface at the rear of the upper surface, and the soil layer is formed by constructing the soil layer into a plurality of layers. Steps;
A support connector installation step of installing a support connector installed on an upper surface of the soil layer and having the front of the earth connector discharged to the outside of the soil layer;
Forming an outer finishing reinforcing soil retaining wall installed at a predetermined distance in front of the reinforcing soil and having a gap connecting member installed on the upper surface thereof, and forming them in a plurality of layers to form the outer finishing reinforcing soil retaining wall portion;
A gap connecting member installing step of connecting the external reinforcing soil retaining wall and the support connecting member to each other;
Reinforcement soil retaining wall applied to the poor ground expected to settle, characterized in that consisting of; Construction method.

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