KR20190006310A - Construction Method of Reinforced Earth Retaining Wall - Google Patents

Abstract

Provided is a construction method of a reinforced earth retaining wall. The construction method of a reinforced earth retaining wall is a construction method of stacking a plurality of reinforced earth blocks on a cut slope, and includes: a first step of filling rubble stones in an object ground to construct a foundation part; a second step of pouring reinforced concrete into an upper portion of the foundation part; a third step stacking a plurality of reinforced earth blocks on the upper surface of the reinforced concrete, joining a block anchor by vertically penetrating the plurality of reinforced earth blocks, and horizontally burying a block bar between the reinforced earth blocks stacked vertically in order to form a retaining wall; a fourth step of vertically arranging a plurality of fixing anchors from upper portions to lower portions in such a way that one end of each fixing anchor is connected to the block bar and the other end is arranged at the rear; a fifth step of contacting an anchor pile box to the outer surface of the slope and driving and fixing a lower portion of the anchor pile box into the ground; a sixth step of inserting an anchor pile into the anchor pile box and injecting and hardening concrete into the anchor pile box; a seventh step of connecting a rear end of the fixed anchor to one side of the anchor pile exposed to the outside from the anchor pile box; and an eighth step of charging earth and sand in a space between the retaining wall of the third step and the slope of the fifth step and tramping the earth and sand.

Description

Technical Field [0001] The present invention relates to a method of constructing a reinforced earth retaining wall,

The present invention relates to a method of constructing a reinforced earth retaining wall, and more particularly, to a method of constructing a reinforced earth retaining wall capable of preventing loss of soil, enhancing efficiency and stability of land, and reducing construction cost.

In general, reinforcement of inclined slopes formed by incision of rock or earth in civil engineering or construction site, or reinforcement of incline slopes occurring between different altitudes in the process of embedding the ground should be considered.

The cut-out portion is a structure for the incision sloped surface formed by arbitrary incision of the rock portion or the earth, and the fill-out portion is a structure for a sloped inclined surface occurring between different altitudes in the embedding process.

Various retaining methods have been developed for the retaining walls on the slopes of the cut part and the embankment part. The retaining walls can be variously constructed according to the characteristics of the incision slope and inclined slope.

The retaining wall is a wall structure that prevents the earth from collapsing due to the earth pressure. It is a structure made to prevent the ground collapse caused by a steep slope of the surface ground, There are many types, such as stacking, gravity type concrete retaining wall, special reinforcing concrete retaining wall, etc., required for stacking, shaving mountain, filling the coast.

In addition, the block piling is to form a retaining wall by laminating blocks made of concrete. The gravity type concrete retaining wall is structured to prevent collapse of the ground due to the weight of the concrete itself. It is adopted when the height is relatively low, The special reinforced concrete retaining wall is used when the height of the retaining wall is so large that it is not economical for the gravity retaining wall or it is necessary to make the use of the paper (land) advantageous by making the wall vertical, and the reverse type T type, : L-shaped), etc. There are many other types, such as steel plates and fences (wooden fence) are also simple.

FIG. 14 is a sectional view showing the structure of a retaining wall using a block according to the related art.

Reinforced concrete 10a is laid under the cut slopes 1a of the ground cut part 1 and blocks are stacked on the reinforced concrete 10a to form a retaining wall 12a.

And a fixed anchor 14a having one end connected to the block tightening anchor 13a embedded in the retaining wall 12a and obliquely installed at the back of the retaining wall 12a and the other end embedded in the reinforced concrete 10a.

After that, the retaining wall construction is completed by backfilling the gravel in the space between the retaining wall and cut slope.

Conventionally, the retaining wall construction method has a disadvantage in preventing the collapse of the slope, and the soilless nailing for fixing the retaining wall to the ground has a risk of collapse because the sufficient supporting force can not be exhibited.

Korean Patent No. 10-0985817.

An object of the present invention is to provide a method of constructing a reinforced earth retaining wall capable of preventing slope collapse, increasing stability of a slope after installation, and increasing stability by combining a pile and a block.

1. An object of the present invention is to provide a method of laying a plurality of reinforcing soil blocks on a cut slope, comprising the steps of: (1) Placing a reinforced concrete on an upper portion of the foundation; A plurality of reinforcing soil blocks are stacked on the upper surface of the reinforced concrete, a plurality of stacked reinforcing soil blocks penetrate in the longitudinal direction to connect the block anchors, and blockbedding is horizontally embedded between the upper and lower stacked reinforcing soil blocks to form a retaining wall Three steps; A fourth step of disposing the plurality of fixed anchors in the longitudinal direction from the upper part to the lower part by disposing the other end of the block anchor in the longitudinal direction; A fifth step of bringing the anchor pile box into close contact with the outer surface of the slope and then fixing the lower part to the ground; Inserting an anchor file in the anchor file box and injecting concrete into the anchor file box to cure the anchor file box; Connecting the rear end of the fixed anchor to one side of the anchor pile exposed to the outside of the anchor pile box; And filling the gaps between the retaining walls of the three stages and the slopes of the five stages with the gravel.

The step 5 is characterized in that the anchor pile box is inclined so as to be parallel to the slope.

2. The above object of the present invention is achieved by a method for laying a plurality of blocks of reinforcing soil on a cut slope, comprising the steps of: 1) Placing a reinforced concrete on an upper portion of the foundation; A plurality of reinforcing soil blocks are stacked on the upper surface of the reinforced concrete, a plurality of stacked reinforcing soil blocks penetrate in the longitudinal direction to connect the block anchors, and blockbedding is horizontally embedded between the upper and lower stacked reinforcing soil blocks to form a retaining wall Three steps; A fourth step of disposing the plurality of fixed anchors in the longitudinal direction from the upper part to the lower part by disposing the other end of the block anchor in the longitudinal direction; A fifth step of placing a plurality of anchor pile boxes in close contact with the inside and outside of the slope and then fixing the bottom of each anchor pile box to the ground; Inserting an anchor file in the anchor file box and injecting concrete into the anchor file box to cure the anchor file box; Connecting the rear end of the fixed anchor to one side of the anchor pile exposed to the outside of the anchor pile box; And filling the gaps between the retaining walls of the three stages and the slopes of the five stages with the gravel.

The step 5 includes a step of installing a first anchor pile box so as to be inclined in parallel with the slope and a step of installing a second anchor pile box embedded in the slope and perpendicular to the upper end of the first anchor pile box .

Wherein the first anchor file is embedded in the first anchor file box and one end of the middle anchor of the plurality of fixed anchors passes through the first anchor file and is connected to the first anchor file

A second anchor file is buried in the second anchor file box, and one end of the upper fixed anchor of the plurality of fixed anchors is connected to the end of the second anchor file

3. The object of the present invention is to provide a method for laminating a plurality of reinforcing soil blocks on a clayey soil, comprising the steps of: 1) Placing a reinforced concrete on an upper portion of the foundation; A plurality of reinforcing soil blocks are stacked on the upper surface of the reinforced concrete, a plurality of stacked reinforcing soil blocks penetrate in the longitudinal direction to connect the block anchors, and blockbedding is horizontally embedded between the upper and lower stacked reinforcing soil blocks to form a retaining wall Three steps; A fourth step of disposing the plurality of fixed anchors in the longitudinal direction from the upper part to the lower part by disposing the other end of the block anchor in the longitudinal direction; A fifth step of embedding a third anchor file box on the embankment so that the embankment is buried and layered; A sixth step in which the fourth anchor pile box is brought into close contact with the embankment so that the lower part is fixed to the ground; Inserting third and fourth anchor files into the third and fourth anchor file boxes, and injecting and curing concrete into the third and fourth anchor file boxes; Connecting the rear end of the fixed anchor to one side of the fourth anchor pile, connecting an extended anchor to one side of the third anchor pile, and connecting the extended anchor to the rear end of the fixed anchor; And filling the soil between the retaining wall and the ground and filling the soil with at least one layer of geogrid in the upper part.

The sixth step is characterized in that the fourth anchor file box is inclined so as to be parallel to the slope.

The third anchor file box and the fourth anchor file box are embedded in parallel, and the upper ends of the third anchor file box and the fourth anchor file box are located at the same height.

A third anchor file is buried in the third anchor file box and one end of the fixed anchor of the plurality of fixed anchors is connected to the fourth anchor file through the fourth anchor file box, And one end thereof is fixed to the fourth anchor file.

And an extension anchor connected to an upper end of the fourth anchor file and connected to an upper end of the third anchor file.

According to the present invention, the stability of the slope after the construction can be increased, and the stability can be increased by combining the file and the block.

That is, the stability can be increased by increasing the degree of compaction of the foundation ground due to difference in excitation force.

It is possible to compaction up to the backside of the block, thereby preventing short-circuiting of the geogrid due to settlement prevention.

It is possible to increase the degree of compaction due to excellent excitation force, and it is possible to increase the stability because the compaction is performed without a dead zone.

Although the effects that can be exhibited by the embodiments are listed as such, it is obvious that the present invention is not limited thereto and other effects other than the effects listed above can be obtained.

1 is a process flow diagram for construction of a reinforced earth retaining wall according to the first embodiment,
2 is a view showing an example of construction of a reinforced earth retaining wall according to the first embodiment,
Fig. 3 is a process flow chart for construction of the reinforced earth retaining wall according to the second embodiment,
4 is a view showing an example of construction of a reinforced earth retaining wall according to a second embodiment,
5 is a process flow diagram for a reinforced earth retaining wall according to the third embodiment,
6 is a view showing a construction example of a reinforced earth retaining wall according to a third embodiment,
Fig. 7 is a partially enlarged perspective view of Fig. 6,
FIG. 8 is a detail view of a hub connection partially enlarged in FIG. 7,
9 is a view showing the installation of a 'fixed anchor' applied to the first, second and third embodiments,
10 is a detailed view of the 'anchor file' applied to the first, second, and third embodiments,
11 is a detailed view of a 'turnbuckle' applied to the first, second, and third embodiments,
12 and 13 are a detailed view of a 'fixed bar of a fixed anchor' applied to the first, second, and third embodiments,
14 shows a prior art.

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

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

[First Embodiment]

1 to 9, in the construction method of the reinforced earth retaining wall according to the first embodiment, in the construction method of stacking a plurality of reinforcing soil blocks on the sloped slope 100, (S1) of placing the base part (2) by inserting it; A second step (S2) of placing a reinforced concrete (4) on an upper part of the foundation part (2) to install a foundation block; A plurality of reinforcing soil blocks 6 are horizontally connected to the upper surface of the reinforced concrete 4 to form a single-stage block, a block bar 8 is horizontally installed on the upper portion of the single- (S3) of installing the block anchors (7) in the vertical direction at regular intervals in the vertical direction (6); In the third step S3, a multi-stage block is stacked on top of the first stage block to form a retaining wall, one end of which is connected to the block bar 8 of each end block and the other end is directed to the slope 100, (S4) of installing the fixed anchor 9 of the stator 10 in a multi-stage manner; (S5) of constructing a plurality of anchor pile boxes (3) so as to be close to the slope (100), placing the lower portions of the anchor pile boxes (3) A sixth step (S6) of inserting an anchor pile (5) into the anchor pile (3) and injecting concrete into the anchor pile (3) and curing; (S7) of connecting the rear end of the multi-stage fixed anchor 9 of the fourth step S4 to one side of the anchor pile 5 exposed to the outside of the anchor pile box 3; (S8) of filling the soil between the retaining wall 200 of the third step S3 and the slope 100 of the fifth step S5.

Step 1 (S1)

The basement (2) is constructed by filling the ground to be installed with rubble.

Step S2 (S2)

Reinforced concrete (4) is laid on the top of the foundation (2).

The reinforced concrete 4 is installed in a large area so as to cover the upper part of the foundation part 2 and cover the lower part of the slope 100.

Step S3 (S3)

A plurality of reinforcing soil blocks 6 are laminated on the upper surface of the reinforced concrete 4 to form a single-stage block.

The reinforcing soil block 6 of the first-stage block is installed in the foundation before the reinforced concrete 4 is laid so as to be embedded in the reinforced concrete 4.

Thereafter, the reinforced concrete 4 is laid so that the reinforcing soil block 6 of the first-stage block is buried.

Thereafter, the reinforcing soil block is continuously laminated on the upper part of the first-stage block to form a retaining wall composed of multi-stage blocks.

A block bar 8 is horizontally installed in each short block and a plurality of stacked reinforcing blocks 6 are vertically penetrated at regular intervals to form a plurality of block anchors 7 to form a retaining wall structure.

Since a plurality of holes are formed in the reinforcing soil block 6, a passage through which the block anchors 7 can be inserted from the upper part to the lower part when a plurality of reinforcing soil blocks 6 are stacked can be formed.

In addition, the block bar 8 is buried horizontally between the reinforcing soil blocks 6 stacked vertically for each layer.

On the other hand, as shown in FIG. 15, a PVC pipe 76 is installed through a plurality of stacked reinforcing soil blocks 6, and a block anchor 7 is inserted into the PVC pipe 76 to install the PVC pipe.

In order to adjust the length of the retaining wall composed of a plurality of stacked reinforcing soil blocks 6, the PVC pipe 76 is connected to and connected to the socket 73 in the middle.

After the block anchor 7 is inserted into the PVC pipe 76, the interior of the PVC pipe 76 is filled with concrete mortar and cured.

More specifically, in the third step S3,

A step 3-1 in which a reinforcing soil block 6 is stacked on an upper surface of a reinforced concrete 4 to provide a foundation block and a block bar 8 is installed on an upper surface of the foundation block;

A step 3-2 of stacking a first stage block on the upper part of the foundation block, installing a block bar 8 on the first stage block and installing a block anchor 7 and a hub;

Step 3-3 of connecting a first stage fixed anchor connected to the block anchor 7 of the first stage block to the anchor file 5;

Step 3-4 to fill the soil behind the first-stage block;

Step 3-5 of stacking the two-stage block and fixing the two-stage fixed anchor to the anchor file 5;

Steps 3-6 to fill the soil behind the second-stage block;

Are sequentially stacked to a required height, thereby forming a retaining wall.

Therefore, since a plurality of blocks are stacked and a fixed anchor is buried in each of the end blocks, a fixed anchor is also installed in multiple stages.

Step S4 (S4)

One end is connected to the block anchor 7 and the block bar 8, and the other end is disposed rearward, so that a plurality of fixed anchors 9 are arranged in the longitudinal direction from the upper part to the lower part.

7, a hub connecting device 200 is formed on a horizontal block bar 8, and a block anchor 7 is coupled to the hub connecting device 200. As shown in Fig.

8, the hub connection device 200 includes a tightening member 210 which is coupled to the outside of the block bar 8, a fastening member 210 which is coupled to the tightening member 210 and which is screwed to the outer peripheral surface of the block anchor 7 And a fixing nut 230 screwed to the outer circumferential surface of the fixed anchor 9 and closely attached to the fixed anchor hub 220.

Step 5 (S5)

After the anchor pile box 3 is brought into close contact with the outer surface of the slope 100, the lower portion is fixed to the ground.

The anchor pile box 3 is slanted so as to be parallel to the slope. The length of the anchor pile box 3 may be formed to be short from the ground to the reinforced concrete 4 or to be long enough to reach the intermediate position of the retaining wall.

Step 6 (S6)

After the anchor pile 5 is inserted into the anchor pile box 3 of step 5 (S5), the concrete is injected into the anchor pile box 3 and cured.

Step 7 (S7) is a process of connecting the fixed anchor 9 and the anchor box 3 to each other.

12, the bolts 926 coupled through the anchor box 3 and the rear end of the fixed anchor 9 are connected to each other by a coupling nut 925 by screwing. The connecting nut 925 is formed with openings on both sides thereof and has a thread formed therein, and a partition wall is formed to cover the inner middle, and the fixed anchor is coupled through the one opening and the computer bolt is coupled through the other opening.

A plurality of nuts 927 are fastened to the computer bolts 926 and a plurality of nuts 927 are tightly fixed to both outer surfaces of the anchor box 3.

13, the connection rim 39 is coupled to the outer circumferential surface of the anchor box 3, the eye nut 410 is coupled to the connection rim 39, the fixed anchor 9 is attached to the eye nut 410, .

9, the fixed anchor 9 is connected to one side of the block anchor 7 or the block bar 8 by the connecting means 300. As shown in Fig.

The connecting means 300 includes a plurality of nuts 310 threaded on the outer circumferential surface of one side of the block anchor 7 and a plurality of nuts 310 threadedly engaged with the threads, And one end of the fixed anchor 9 is welded to the outer peripheral surface of the socket 320 to be integrally coupled.

The tightening force of the fixed anchor 9 is strengthened by tightening the socket 320, so that the tension state can be strongly maintained.

10, '∩' -shaped connection rings 400 are welded to an upper portion of the anchor pile 5, and a plurality of eye nuts 410 are coupled to the connection rings 400. As shown in FIG.

One end of the fixed anchor 9 is connected to the eye nut 410 and the other end is coupled to the block anchor 7. The fixed anchor 9 and the block anchor 7 are connected by a binding device 400.

11, in the binding apparatus 400, the first turnbuckle 411 and the first nut 413 are screwed to the fixed anchor 9 coupled to the one-side eye nut 410,

The second turnbuckle 421 and the second nut 423 are screwed to the block anchor 7 coupled to the other-side eye nut 410,

The first turnbuckle 411 and the second turnbuckle 421 are integrally fixed by welding.

[Second Embodiment]

3 and 4, in the construction method of the reinforced earth retaining wall according to the second embodiment, in the construction method in which a plurality of reinforcing soil blocks are stacked on the sloped slope 100, A step S1 of constructing the foundation 2; A second step (S2) of placing a reinforced concrete (4) on an upper part of the foundation part (2) to install a foundation block; A plurality of reinforcing soil blocks 6 are horizontally connected to the upper surface of the reinforced concrete 4 to form a single-stage block, a block bar 8 is horizontally installed on the upper portion of the single- (S3) of installing the block anchors (7) in the vertical direction at regular intervals in the vertical direction (6); In the third step S3, a multi-stage block is stacked on top of the first stage block to form a retaining wall, one end of which is connected to the block bar 8 of each end block and the other end is directed to the slope 100, (S4) of installing the fixed anchor 9 of the stator 10 in a multi-stage manner; (S5) of constructing a plurality of anchor pile boxes (31, 32) so as to be close to the slope (100) and fixing the lower portions of the anchor pile boxes (31, 32) to the ground; A sixth step (S6) of inserting an anchor pile (5) into the anchor pile boxes (31, 32), injecting concrete into the anchor pile boxes (31, 32) and curing them; (S7) of connecting the rear end of the fixed anchor 9 to one side of the anchor pile 5 exposed to the outside of the anchor pile boxes 31 and 32; (S8) for filling the gaps between the retaining wall 200 of the third step S3 and the slope 100 of the fifth step S5.

Since the first step S1 to the second step S2 correspond to the first embodiment described above, a duplicate description will be omitted.

In a third step S3 of the second embodiment, a reinforcing soil block 6 is stacked on the upper surface of the reinforced concrete 4 to form a foundation block, and a block bar 8 is installed on the foundation block. A step 3-2 of stacking a first stage block on the upper part of the foundation block, installing a block bar 8 on the first stage block and installing a block anchor 7 and a hub; Step 3-3 of connecting a first stage fixed anchor connected to the block anchor 7 of the first stage block to the anchor file 5; Step 3-4 to fill the soil behind the first-stage block; Step 3-5 of stacking the two-stage block and fixing the two-stage fixed anchor to the anchor file 5; Step 3-6 step of filling the gravel with the gravel at the back of the second block is repeatedly carried out in order to form a retaining wall.

Therefore, since a plurality of blocks are stacked and a fixed anchor is buried in each of the end blocks, a fixed anchor is also installed in multiple stages.

In the fourth step (S4) of the second embodiment, one end is connected to the block anchor 7 and the block bar 8, and the other end is disposed to the rear so that the plurality of fixed anchors 9 are arranged in the longitudinal direction do.

On the other hand, as shown in FIG. 15, a PVC pipe 76 is installed through a plurality of stacked reinforcing soil blocks 6, and a block anchor 7 is inserted into the PVC pipe 76 to install the PVC pipe.

In order to adjust the length of the retaining wall composed of a plurality of stacked reinforcing soil blocks 6, the PVC pipe 76 is connected to and connected to the socket 73 in the middle.

After the block anchor 7 is inserted into the PVC pipe 76, the interior of the PVC pipe 76 is filled with concrete mortar and cured.

7, a hub connecting device 200 is formed on a horizontal block bar 8, and a block anchor 7 is coupled to the hub connecting device 200. As shown in Fig.

8, the hub connection device 200 includes a tightening member 210 which is coupled to the outside of the block bar 8, a fastening member 210 which is coupled to the tightening member 210 and which is screwed to the outer peripheral surface of the block anchor 7 And a fixing nut 230 screwed to the outer circumferential surface of the fixed anchor 9 and closely attached to the fixed anchor hub 220.

The fifth step S5 of the second embodiment includes a step S5-1 in which the first anchor pile box 31 is slanted so as to be parallel to the slope 100 and a step S5-1 of embedding the first anchor pile box 31 in the slope 100, And a step (S6-2) in which the second anchor box 32 is constructed so as to be perpendicular to the upper end of the anchor box 31.

A first anchor file 51 is embedded in the first anchor file box 31 and one end of the middle anchor of the plurality of fixed anchors 9 passes through the first anchor file 5, .

The second anchor pile box 32 is installed close to the horizontal and has a second anchor pile 52 embedded therein. One end of the upper anchor 9-1 of the plurality of fixed anchors 9 And is fixedly connected to the end of the second anchor pile 52 or the fixed anchor 9-1.

Step 7 (S7) is a process of connecting the fixed anchor 9 and the anchor box 3 to each other.

12, the bolts 926 coupled through the anchor box 3 and the rear end of the fixed anchor 9 are connected to each other by a coupling nut 925 by screwing. The connecting nut 925 is formed with openings on both sides thereof and has a thread formed therein, and a partition wall is formed to cover the inner middle, and the fixed anchor is coupled through the one opening and the computer bolt is coupled through the other opening.

A plurality of nuts 927 are fastened to the computer bolts 926 and a plurality of nuts 927 are tightly fixed to both outer surfaces of the anchor box 3.

13, the connection rim 39 is coupled to the outer circumferential surface of the anchor box 3, the eye nut 410 is coupled to the connection rim 39, the fixed anchor 9 is attached to the eye nut 410, .

A fixed anchor 9 is connected to one side of the block anchor 7 or the block bar 8 by a connecting means 300.

The connecting means 300 includes a plurality of nuts 310 threaded on the outer circumferential surface of one side of the block anchor 7 and a plurality of nuts 310 threadedly engaged with the threads, And one end of the fixed anchor 9 is welded to the outer peripheral surface of the socket 320 to be integrally coupled.

The tightening force of the fixed anchor 9 is strengthened by tightening the socket 320, so that the tension state can be strongly maintained.

10, '∩' -shaped linking rings 400 are welded to the upper portions of the anchor paddles 51 and 52, and a plurality of eye nuts 410 are coupled to the linking link 400.

One end of the fixed anchor 9 is connected to the eye nut 410 and the other end is coupled to the block anchor 7. The fixed anchor 9 and the block anchor 7 are connected by a binding device 400.

11, in the binding apparatus 400, the first turnbuckle 411 and the first nut 413 are screwed to the fixed anchor 9 coupled to the one-side eye nut 410,

The second turnbuckle 421 and the second nut 423 are screwed to the block anchor 7 coupled to the other-side eye nut 410,

The first turnbuckle 411 and the second turnbuckle 421 are integrally fixed by welding.

[Third Embodiment]

As shown in Figs. 5 and 6, in the construction method of the reinforced earth retaining wall according to the third embodiment, in the construction method in which a plurality of reinforcing soil blocks are laminated on the embankment, (S1); < / RTI > (S2) of placing the reinforced concrete (4) on the top of the foundation (2); A plurality of reinforcing soil blocks 6 are horizontally connected to the upper surface of the reinforced concrete 4 to form a single-stage block, a block bar 8 is horizontally installed on the upper portion of the single- (S3) of installing the block anchors (7) in the vertical direction at regular intervals in the vertical direction (6); In the third step S3, a multi-stage block is stacked on top of the first stage block to form a retaining wall, one end of which is connected to the block bar 8 of each end block and the other end is directed to the embankment surface 100 (S4) of installing a plurality of fixed anchors (9) so as to be multi-stage; A fifth step (S5) of embedding a third anchor box (33) in a grounded embankment, filling the embankment and layering (G3); A sixth step (S6) in which the fourth anchor pile box (34) is brought into close contact with the ground (G2) and then the bottom is fixed to the ground; After the third and fourth anchor piles 53 and 54 are inserted into the third and fourth anchor pile boxes 33 and 34, concrete is injected into the third and fourth anchor pile boxes 33 and 34 to be cured Step 7 (S7); A rear end of the fixed anchor 9 is connected to one side of the fourth anchor pile 54 and an extended anchor 57 is connected to one side of the third anchor pile 53, Step 8 of connecting (S8); The geogrid 250 is buried in the space between the retaining wall 200 and the ground so that the geogrid 250 is embedded in the reinforcing soil block layer stacked on the upper portion of the retaining wall 200, S9).

In the third step S3, the base block is installed by stacking the reinforcing soil block 6 on the upper surface of the reinforced concrete 4, and the block bar is installed on the upper surface of the foundation block. A step 3-2 of stacking a first stage block on the upper part of the foundation block, installing a block bar on the first stage block and installing a block anchor and a hub; Connecting the first anchor to the third anchor file connected to the block anchor of the first block; Step 3-4 to fill the soil behind the first-stage block; 3-5 steps of stacking the two-stage block and fixing the two-stage fixed anchor to the anchor file; And steps 3-6 for filling up the gravel after the second-stage block.

A plurality of blocks are stacked on the upper part of the second-stage block, and a plurality of fixed anchors are further embedded and fixed to the anchor pile.

On the other hand, as shown in FIG. 15, a PVC pipe 76 is installed through a plurality of stacked reinforcing soil blocks 6, and a block anchor 7 is inserted into the PVC pipe 76 to install the PVC pipe.

In order to adjust the length of the retaining wall composed of a plurality of stacked reinforcing soil blocks 6, the PVC pipe 76 is connected to and connected to the socket 73 in the middle.

After the block anchor 7 is inserted into the PVC pipe 76, the interior of the PVC pipe 76 is filled with concrete mortar and cured.

In the fourth step S4, one end is connected to the block anchor 7 and the block bar 8, and the other end is arranged rearward, so that the plurality of fixed anchors 9 are arranged in the longitudinal direction from the upper part to the lower part.

7, a hub connecting device 200 is formed on a horizontal block bar 8, and a block anchor 7 is coupled to the hub connecting device 200. As shown in Fig.

8, the hub connection device 200 includes a tightening member 210 which is coupled to the outside of the block bar 8, a fastening member 210 which is coupled to the tightening member 210 and which is screwed to the outer peripheral surface of the block anchor 7 And a fixing nut 230 screwed to the outer circumferential surface of the fixed anchor 9 and closely attached to the fixed anchor hub 220.

In the sixth step S6, the fourth anchor box 34 is inclined so as to be parallel to the slope 100 having the layer compaction G3.

Preferably, the third anchor file box 33 and the fourth anchor file box 34 are embedded in parallel, and the upper ends of the third anchor file box 33 and the fourth anchor file box 34 are located at the same height.

A third anchor file 53 is buried in the third anchor file box 33. One end of the lower anchor of the plurality of fixed anchors 9 passes through the fourth anchor file box 34 And one end of the upper fixed anchor 9 is fixed to the fourth anchor file 54. The upper anchor 9 is fixed to the fourth anchor file 54 at one end thereof.

The extended anchor 57 is connected to the upper end of the third anchor file 53 and the fourth anchor file 54 formed in parallel. The extension anchor 57 is formed substantially horizontally.

Step 7 (S7) is a process of connecting the fixed anchor 9 and the anchor box 3 to each other.

12, the bolts 926 coupled through the anchor box 3 and the rear end of the fixed anchor 9 are connected to each other by a coupling nut 925 by screwing. The connecting nut 925 is formed with openings on both sides thereof and has a thread formed therein, and a partition wall is formed to cover the inner middle, and the fixed anchor is coupled through the one opening and the computer bolt is coupled through the other opening.

A plurality of nuts 927 are fastened to the computer bolts 926 and a plurality of nuts 927 are tightly fixed to both outer surfaces of the anchor box 3.

13, the connection rim 39 is coupled to the outer circumferential surface of the anchor box 3, the eye nut 410 is coupled to the connection rim 39, the fixed anchor 9 is attached to the eye nut 410, .

In step S9, the geogrid 250 is buried in the space between the backside of the retaining wall 200 and the ground, and the reinforcing soil block layer stacked on the retaining wall 200 is filled with the geogrid 250.

Referring to FIG. 9, a fixed anchor 9 is connected to one side of the block anchor 7 or the block bar 8 by a connecting means 300.

The connecting means 300 includes a plurality of nuts 310 threaded on the outer circumferential surface of one side of the block anchor 7 and a plurality of nuts 310 threadedly engaged with the threads, And one end of the fixed anchor 9 is welded to the outer peripheral surface of the socket 320 to be integrally coupled.

10, '∩' -shaped connection rings 400 are welded to the upper part of the anchor pile 5, and a plurality of eye nuts 410 are coupled to the connection pillar 400.

One end of the fixed anchor 9 is connected to the eye nut 410 and the other end is coupled to the block anchor 7. The fixed anchor 9 and the block anchor 7 are connected by a binding device 400.

11, in the binding apparatus 400, the first turnbuckle 411 and the first nut 413 are screwed to the fixed anchor 9 coupled to the one-side eye nut 410,

The second turnbuckle 421 and the second nut 423 are screwed to the block anchor 7 coupled to the other-side eye nut 410,

The first turnbuckle 411 and the second turnbuckle 421 are integrally fixed by welding.

The geogrid 250 is a lattice-like material having a hole of approximately 1 to 10 cm between ribs produced by weaving a fiber or a filament yarn in the form of a fabric or a knitted fabric in a light and weft direction, It is mainly used as reinforcing material in the direction of receiving load.

It will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, and all such changes and modifications are intended to be within the scope of the appended claims. It is self-evident.

2: Foundation part 3: Anchor box
4: Reinforced concrete 5: Anchor pile
6: Reinforced earth block 7: Block anchor
8: Block bar 9: Fixed anchor
31: first anchor file box 32: second anchor file box
51: first anchor file 52: second anchor file
57: Extended anchor
100: slope

Claims (16)

In a construction method in which a plurality of reinforcing soil blocks are stacked on a cut slope,
A step 1 in which a foundation is constructed by filling a rubble in the ground to be installed;
Placing a reinforced concrete on an upper portion of the foundation;
A plurality of reinforcing soil blocks are stacked on the upper surface of the reinforced concrete, a plurality of stacked reinforcing soil blocks penetrate in the longitudinal direction to connect the block anchors, and a block bar is embedded horizontally between the upper and lower stacked reinforcing soil blocks to form a retaining wall. step;
A fourth step of disposing the plurality of fixed anchors in the longitudinal direction from the upper part to the lower part by disposing the other end of the block anchor in the longitudinal direction;
A fifth step of bringing the anchor pile box into close contact with the outer surface of the slope and then fixing the lower part to the ground;
Inserting an anchor file in the anchor file box and injecting concrete into the anchor file box to cure the anchor file box;
Connecting the rear end of the fixed anchor to one side of the anchor pile exposed to the outside of the anchor pile box;
Filling the soil between the retaining wall of step 3 and the slope of step 5 in eight steps;
Wherein the reinforcing earth retaining wall is formed of a synthetic resin. The method according to claim 1,
Wherein the step 5 is performed such that the anchor file box is inclined so as to be parallel to the slope.
In a construction method in which a plurality of reinforcing soil blocks are stacked on a cut slope,
A step 1 in which a foundation is constructed by filling a rubble in the ground to be installed;
Placing a reinforced concrete on an upper portion of the foundation;
A plurality of reinforcing soil blocks are stacked on the upper surface of the reinforced concrete, a plurality of stacked reinforcing soil blocks penetrate in the longitudinal direction to connect the block anchors, and a block bar is embedded horizontally between the upper and lower stacked reinforcing soil blocks to form a retaining wall. step;
A fourth step of disposing the plurality of fixed anchors in the longitudinal direction from the upper part to the lower part by disposing the other end of the block anchor in the longitudinal direction;
A fifth step of placing a plurality of anchor pile boxes in close contact with the inside and outside of the slope and then fixing the bottom of each anchor pile box to the ground;
Inserting an anchor file in the anchor file box and injecting concrete into the anchor file box to cure the anchor file box;
Connecting the rear end of the fixed anchor to one side of the anchor pile exposed to the outside of the anchor pile box;
Filling the soil between the retaining wall of step 3 and the slope of step 5 in eight steps;
Wherein the reinforcing earth retaining wall is formed of a synthetic resin. The method of claim 3,
The step 5 includes a step of installing a first anchor pile box so as to be inclined in parallel with the slope and a step of installing a second anchor pile box embedded in the slope and perpendicular to the upper end of the first anchor pile box And the reinforcing earth retaining wall is constructed by a method of constructing a reinforcing earth retaining wall. The method of claim 3,
Wherein a first anchor file is embedded in the first anchor file box and one end of a middle anchor of the plurality of fixed anchors passes through the first anchor file and is connected to the first anchor file. The method of claim 3,
Wherein a second anchor file is buried in the second anchor file box, and one end of the upper fixed anchor of the plurality of fixed anchors is connected to an end of the second anchor file.
In a construction method for laminating a plurality of reinforcing soil blocks on a clayey soil,
A step 1 in which a foundation is constructed by filling a rubble in the ground to be installed;
Placing a reinforced concrete on an upper portion of the foundation;
A plurality of reinforcing soil blocks are stacked on the upper surface of the reinforced concrete, a plurality of stacked reinforcing soil blocks penetrate in the longitudinal direction to connect the block anchors, and a block bar is embedded horizontally between the upper and lower stacked reinforcing soil blocks to form a retaining wall. step;
A fourth step of disposing the plurality of fixed anchors in the longitudinal direction from the upper part to the lower part by disposing the other end of the block anchor in the longitudinal direction;
A fifth step of embedding a third anchor file box on the embankment so that the embankment is buried and layered;
A sixth step in which the fourth anchor pile box is brought into close contact with the embankment so that the lower part is fixed to the ground;
Inserting third and fourth anchor files into the third and fourth anchor file boxes, and injecting and curing concrete into the third and fourth anchor file boxes;
Connecting the rear end of the fixed anchor to one side of the fourth anchor pile, connecting an extended anchor to one side of the third anchor pile, and connecting the extended anchor to the rear end of the fixed anchor;
Filling at least one layer of geogrid on the upper part of the space between the retaining wall and the ground;
Wherein the reinforcing earth retaining wall is formed of a synthetic resin. 8. The method of claim 7,
Wherein the step 6 is performed such that the fourth anchor file box is inclined so as to be parallel to the slope. 8. The method of claim 7,
Wherein the third anchoring file box and the fourth anchoring file box are embedded in parallel, and the tops of the third anchoring file box and the fourth anchoring file box are positioned at the same height. 8. The method of claim 7,
A third anchor file is buried in the third anchor file box and one end of the fixed anchor of the plurality of fixed anchors is connected to the fourth anchor file through the fourth anchor file box, And one end thereof is fixed to the fourth anchor file. 8. The method of claim 7,
And an extension anchor connected to an upper end of the fourth anchor file and connected to an upper end of the third anchor file is formed. The method according to any one of claims 1, 3, and 7,
The third step
A step 3-1 in which a reinforcing soil block is stacked on an upper surface of the reinforced concrete to form a foundation block, and a block bar is installed on the upper surface of the foundation block;
A step 3-2 of stacking a first stage block on the upper part of the foundation block, installing a block bar on the first stage block and installing a block anchor and a hub;
Connecting the first anchor to the third anchor file connected to the block anchor of the first block;
Step 3-4 to fill the soil behind the first-stage block;
3-5 steps of stacking the two-stage block and fixing the two-stage fixed anchor to the anchor file;
Stage 3-6 step of filling the soil behind the second-stage block,
Wherein a plurality of blocks are stacked on an upper portion of the second-stage block, and a plurality of fixed anchors are further embedded and connected and fixed to the anchor pile. The method according to any one of claims 1, 3, and 7,
The fourth step
A horizontal block bar is formed with a hub connection device, a block anchor is coupled to the hub connection device,
The hub connection device
A fastening member coupled to the outside of the block bar, a fixed anchor hub coupled to the fastening member and screwed to an outer circumferential surface of the block anchor, and a fixing nut threadably engaged with the outer circumferential surface of the fixed anchor, A method of constructing a reinforced earth retaining wall. The method according to any one of claims 1, 3, and 7,
A fixed anchor is connected to one side of the block anchor or the block bar by a connecting means,
The connecting means
A plurality of nuts threadably engaged with the threads, and a socket threadedly engaged with the threads and disposed between the plurality of nuts,
One end of the fixed anchor is welded to the outer circumferential surface of the socket,
And a tension of the fixed anchor is caused by tightening of the socket.
The method according to any one of claims 1, 3, and 7,
And a binding apparatus for connecting the fixed anchor and the block anchor,
The binding apparatus
A first turnbuckle and a first nut screwed to a fixed anchor coupled to the eye nut;
A second turnbuckle threaded to the block anchor and a second nut,
Wherein the first turnbuckle and the second turnbuckle are integrally connected to each other.
The method according to any one of claims 1, 3, and 7,
The third step
A PVC pipe is installed through a plurality of stacked reinforcing soil blocks, a block anchor is inserted into the PVC pipe,
In order to adjust the length to correspond to the height of the retaining wall composed of a plurality of stacked reinforcing soil blocks, the PVC pipe is completed by being connected to the middle by a socket,
Wherein the block anchor is inserted into the PVC pipe, and then the concrete mortar is filled in the inside of the PVC pipe to harden the reinforcing earth retaining wall.

Images