KR101389743B1 - Construction method of reinforcing of abutment - Google Patents

Abstract

The present invention relates to an abutment (100) reinforcing structure, including a wall body (100b) and a bottom board (100a). Disclosed is an abutment reinforcing structure comprising: an anchor (200) combined to the bottom board (100a) of the abutment (100) and installed in a backfilling part (10) formed in the rear of the abutment (100); and a bottom board anchor combining unit (300a) formed in the bottom board (100a) so that the anchor (200) can be combined to the bottom board (100a), and a construction method of the abutment reinforcing structure. Thus, a load applied to the abutment is distributed to not cause displacement and damage, and structural stability and economic feasibility are secured.

Description

Construction method of alternating reinforcement structure {CONSTRUCTION METHOD OF REINFORCING OF ABUTMENT}

The present invention relates to the field of civil engineering, and in particular, to an alternating reinforcement structure and its construction method.

In bridges used for road and railway construction, the bridges are installed at both ends of the bridge to support bridge loads and to connect with adjacent road grounds.

However, the conventional shift has the following problems.

First, displacement may occur in the shift due to the horizontal earth pressure generated at the upper load and the rear of the shift during or during shift construction.

In addition, during backfilling work at the rear of the shift, the rear side of the shift is likely to be subjected to compaction pressure of the soil, which is likely to push the shift forward.

As such, when displacement occurs in the shift, the expansion joint and the bridge support installed between the shift and the superstructure may be damaged, and above all, structural damage of the shift itself and the superstructure occurs, There is a problem that is lost.

Second, the shifts are designed to withstand the horizontal earth pressure generated by the soil behind the shifts, as well as the dead loads and live loads transmitted from the superstructure, which increases the size of the shift foundations or increases the number of pile foundations. There is a problem that the installation period is long and construction costs are also high due to this.

Third, the shift is mainly formed of a reinforced concrete structure with a large rigidity, and the rear part is filled with relatively small rigid backfill soil.

That is, since construction is made using materials having different stiffness from each other, even if the compacting operation is performed on the rear backfill portion, there is a high possibility that the settlement occurs in the long term, or the portion where the alternating and backfill portions contact each other is buried.

If the horizontal displacement of the shift occurs, the settlement of the rear fill portion is further increased, and a step is generated on the road surface or the railway road surface, which causes a deterioration of the driving performance and stability of the vehicle.

These problems are difficult to repair after the completion of the bridge, causing an increase in the cost of repair, causing inconvenience in the riding comfort of the vehicle, so it is urgent to solve the problem.

The present invention was derived to solve the above problems, to provide an alternating reinforcement structure and its construction method, which ensures structural stability and economical efficiency without the displacement and damage by sharing the load acting on the shift The purpose.

In order to solve the above problems, the present invention is a reinforcement structure of the shift 100 including the wall (100b), the bottom plate (100a), one side is coupled to the bottom plate (100a) of the alternate 100, the other side ( An anchor 200 installed at the back filling portion 10 formed at the rear of the 100; The anchor 200 is coupled to the bottom plate 100a, the bottom plate anchor coupling portion 300a formed on the bottom plate 100a; presents an alternating reinforcement structure comprising a.

The anchor 200 is a main body 200b; A fastening part 200a formed at one end of the main body 200b and having a thread 201 formed on an outer surface thereof so as to be coupled to the bottom plate anchor coupling part 300a; A fixing part (200c) formed at the other end of the main body (200b) is installed on the back filling portion (10); and includes, a female screw portion (310) formed to couple to the screw thread (201); It is preferable that the structure 200 is fixed to the bottom plate anchor coupling portion 300a.

The main body 200b is inserted into the outer tube 210, and is preferably formed with a structure in which cement milk 1 is injected between the outer tube 210 and the main body 200b.

The outer tube 210 is a corrugated tube 211 is formed to wrinkle the surface; preferably.

The bottom plate anchor coupling portion 300a further includes a pressure plate 320 installed at the bottom plate anchor coupling portion 300a so that the fastening portion 200a penetrates in order to disperse the stress of the anchor 200. It is desirable to.

The female screw part 310 may further include a screw tube 311 formed to be coupled to the screw thread 201 installed at the rear of the pressure plate 320.

The bottom plate anchor coupling portion 300a may further include an inclined reinforcement member 330 formed on at least one outer surface of the front or rear side of the pressure plate 320 to reinforce the pressure plate 320. .

The fixing part (200c) is a geotextile 231 is installed in a structure surrounding the outside of the fixing part (200c); It is preferably formed in a structure including a; and a solidified body 230, consisting of a grout 232 to be poured into the geotextile 231.

Preferably, the anchor 200 further includes a plurality of protruding members 220 formed on the outer surface of the other end of the main body 200b.

A wall anchor coupling part 300b is formed in the wall 100b to couple the anchor 200 therein, and the wall anchor coupling part 300b is a wall fixing groove 302b formed in front of the wall 100b. ); And a wall anchor hole 301b formed at the rear of the wall 100b so as to communicate with the wall fixing groove 302b, wherein the anchor 200 is provided with a plurality of anchors and at least one of the plurality of anchors 200. One is preferably coupled to the wall anchor coupling portion 300b.

The wall anchor coupling part 300b has the anchor 200 inserted into the wall anchor hole 301b to be coupled to the female screw part 310 installed in the wall fixing groove 302b, and the anchor 200 penetrates. Acupressure plate 320 is installed to be coupled, it is preferable that the inclined reinforcement member 330 is installed on at least one outer surface of the front or rear of the acupressure plate 320.

The present invention is a construction method of the alternating reinforcement structure, the filling step of laying the ground to install the shift 100; Acupressure plate 320 on the bottom plate 100a, a female thread portion 310 installed at the rear of the acupressure plate 320 and a screw tube 311 provided at the front of the acupressure plate 320, the front or rear of the acupressure plate 320 An alternate installation step of installing the shift 100 in which the bottom plate anchor coupling part 300a including the inclined reinforcement member 330 is installed; A bottom plate anchor insertion step of inserting the anchor 200 through the bottom plate anchor hole 301a formed at the rear of the bottom plate anchor coupling part 300a; In order to fix the anchor 200 to the bottom plate 100a, the fastening part 200a of the anchor 200 passes through the pressure plate 320, and to the screw tube 311 and the female screw part 310. A bottom plate anchor fixing step for fixing by; A mortar placing step of pouring mortar (2) into the bottom plate anchor hole (301a); A back filling step of back filling the earth and sand (3) in the back filling portion (10) formed at the rear of the shift (100); Presenting the construction method of the alternating reinforcement structure, including;

In the bottom plate anchor insertion step, a portion of the main body 200b of the anchor 200 may be inserted into the bottom plate anchor coupling part 300a.

Filling step of laying the ground to install the shift 100; Acupressure plate 320 on the bottom plate 100a, a female thread portion 310 installed at the rear of the acupressure plate 320 and a screw tube 311 provided at the front of the acupressure plate 320, the front or rear of the acupressure plate 320 An alternate installation step of installing the shift 100 in which the bottom plate anchor coupling part 300a and the wall anchor coupling part 300b including the inclined reinforcement member 330 are installed in the base plate; A bottom plate anchor insertion step of inserting the anchor 200 through the bottom plate anchor hole 301a formed at the rear of the bottom plate anchor coupling part 300a; In order to fix the anchor 200 to the bottom plate 100a, the fastening portion 200a of the anchor 200 passes through the pressure plate 320 to the screw tube 311 and the female screw portion 310. A bottom plate anchor fixing step for fixing by; A mortar placing step of pouring mortar into the bottom plate anchor hole 301a; A backfilling step of partially backfilling the earth and sand (3) in the backfilling portion (10) formed at the rear of the shift (100); A wall anchor insertion step of inserting the anchor 200 through the wall anchor hole 301b formed at the rear of the wall anchor coupling part 300b; A wall anchor fixing step of fixing the anchoring portion 200a of the anchor 200 through the pressure plate 320 to be fixed to the wall 100b by the female screw portion 310 so that the anchor 200 is fixed to the wall 100b. ; Pouring mortar (2) into the wall fixing groove (302b) and pouring mortar and cement milk into the cement anchor (1) into the wall anchor hole (301b); A wall backfill step of backfilling the earth and sand (3) to the backfill portion (10) formed at the rear of the wall (100b); It is preferable to include; and the finishing step of compacting and finishing the earth and sand (3) at a predetermined height.

When there are a plurality of anchors 200 installed on the wall 100b, only part of the soil 3 is back-filled in the wall backfilling step, and after the wall backfilling step, the wall anchor insertion step, wall anchor fixing step, It is preferable to repeat the mortar pouring and cement milk pouring step and the wall backfill step to compact the soil 3 in multiple stages on the back of the shift 100.

The shift installation step is a pile installation step of installing the pile 400 in the lower portion of the shift 100; preferably further comprises.

The present invention proposes an alternating reinforcing structure having a structural stability and economical efficiency, and a construction method thereof, which do not cause displacement and damage by sharing a load acting on the alternating force.

1 to 5 show an embodiment of the alternating reinforcement structure according to the present invention,
1 is a cross-sectional view of an alternating reinforcement structure.
2 is a cross-sectional view of the bottom plate anchor coupling portion.
3 is a cross-sectional view of the anchor.
4 is a cross-sectional view of the wall anchor coupling portion.
5 to 9 show an embodiment of the construction method of the alternating reinforcement structure according to the present invention,
5 is a sectional view of an alternate installation step.
6 is a cross-sectional view of the bottom plate anchoring step.
7 is a cross-sectional view of the backfill stage.
8 is a cross-sectional view of the wall anchor fixing step.
9 is a cross-sectional view of the finishing step.
10 is a perspective view of Fig.

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

As shown in Figure 1, the present invention is a reinforcement structure of the alternating 100 including the wall (100b), the bottom plate (100a), one side is coupled to the bottom plate (100a) of the alternate 100, the other side An anchor 200 installed in the backfill portion 10 formed at the rear of the shift 100; An alternating reinforcement structure, characterized in that the anchor 200 is coupled to the bottom plate 100a, a bottom plate anchor coupling portion 300a formed on the bottom plate 100a (FIG. 1).

That is, the present invention, in order to prevent the problem that the displacement occurs during construction or public due to the horizontal earth pressure by the earth and sand (3) of the backfill portion 10 and the load transmitted from the upper structure, alternating ( It is to suggest a structure in which the anchor 200 is coupled to the bottom plate 100a of the 100.

The anchor 200 serves to increase the horizontal resistance of the shift 100 in a stable structure by being coupled to the lower portion of the shift 100, that is, the bottom plate 100a.

Therefore, the horizontal displacement that may occur in the shift 100 is suppressed, and damage is prevented from occurring, thereby obtaining an effect of securing structural stability of the shift 100.

In addition, since the anchor 200 is formed of a steel bar having a high resistance to corrosion, there is no fear of damage due to corrosion, thereby ensuring long-term stability.

In addition, in view of the horizontal resistance obtained by installing the anchor 200, the number of piles 400 installed in the lower portion of the shift 100, or the size of the foundation can be reduced, thereby improving the economic efficiency Can also be obtained.

As shown in Figure 3, the specific structure of the anchor 200 is as follows.

First, the anchor 200 is made of a main body 200b formed of a steel bar with strong resistance to corrosion.

A fastening part 200a is formed at one end of the main body 200b to be coupled to the bottom plate anchor coupling part 300a.

The fastening part 200a is characterized in that the thread 201 is formed on the outer surface to be coupled to the female screw part 310 installed in the bottom plate anchor coupling part 300a.

That is, by coupling the fastening part 200a and the female screw part 310, the anchor 200 is directly fixed to the bottom plate anchor coupling part 300a.

The other end of the main body 200b is formed with a fixing portion 200c to be installed in the back filling portion 10.

In particular, the main body 200b is inserted into the outer tube 210 and may be formed in a structure in which cement milk 1 is injected between the outer tube 210 and the main body 200b (FIG. 3).

This structure, through the double structure of the outer tube 210 and the cement milk 1, there is an effect that can more effectively prevent the corrosion of the main body (200b).

Here, the outer tube 210 may be used; a corrugated tube 211 having a corrugated surface.

Corrugated pipe 211 is easy to shrink or relax the wrinkles according to the size of the main body 200b is inserted, it is possible to adjust the length and width is very excellent coupling force with the main body 200b.

It is preferable that the bottom plate anchor coupling portion 300a is provided with a pressure plate 320 having a structure in which the coupling portion 200a penetrates through the anchor 200 to maintain a stable coupling structure by dispersing the stress of the anchor 200.

In addition, the female screw 310 described above, the screw pipe 311 to be coupled to the screw thread 201 installed in the back of the pressure plate 320; is preferably formed.

Through this, the fastening part 200a obtains the effect of being firmly fixed to the bottom plate anchor coupling part 300a.

Here, the reinforcement of the pressure plate 320, so as to more effectively distribute the stress of the anchor 200, inclined reinforcing member 330 on the outer surface of at least one of the front or rear of the pressure plate 320; Structurally preferred.

The fixing part 200c of the anchor 200 may be formed in a structure of a fixed body 230.

Specifically, the geotextile 231 in a structure surrounding the outer side of the fixing portion (200c); is installed, the grout 232 in the interior of the geotextile 231; in the structure of the solidified body 230 is poured May be implemented (FIG. 3).

Since such a structure does not need to provide a formwork, the effect of improving workability can be obtained.

Next, a plurality of protruding members 220 are formed on the outer surface of the other end of the anchor 200 main body 200b.

 This is because the structural stability can be secured by increasing the attachment performance between the main body 200b and the grout 232 through the plurality of protruding members 220 (FIG. 3).

Alternate reinforcement structure of the present invention, through the structure in which the anchor 200 is coupled to the bottom plate (100a), to increase the horizontal resistance of the shift 100 to prevent displacement and resulting damage to the shift (100) Provide effect.

In order to maximize the above effects, a plurality of anchors 200 are installed, and at least one of the plurality of anchors 200 presents a structure coupled to the wall 100b of the alternate 100 (FIGS. 1 and 4).

First, the wall anchor coupling part 300b is formed in the wall 100b.

In the case of the bottom plate anchor coupling part 300a, the anchor 200 is formed to be inserted by a predetermined length from the rear surface of the bottom plate 100a.

On the other hand, the thickness of the cross section of the wall 100b is relatively smaller than that of the bottom plate 100a.

Therefore, in order for the anchor 200 to be stably coupled to the wall 100b, the wall anchor coupling part 300b is preferably formed from the rear surface of the wall 100b to the opposite direction.

That is, the wall anchor coupling part 300b has a wall fixing groove 302b formed in front of the wall 100b to correspond to the size of the pressure plate 320, and communicates with the wall fixing groove 302b of the wall 100b. At the rear, a wall anchor hole 301b having a size into which the anchor 200 can be inserted is formed (FIG. 4).

The wall anchor coupling part 300b is similar to the bottom plate anchor coupling part 300a, and the anchor 200 is inserted into the wall anchor hole 310b to couple to the female screw part 310 installed in the wall fixing groove 302b. Characterized in that the pressure plate 320 is installed so that the 200 is coupled through.

In addition, through the structure in which the inclined reinforcing member 330 is installed on at least one outer surface of the front or rear of the pressure plate 320, the effect of effectively dispersing the stress of the anchor 200 is obtained.

As described above, the structure in which the plurality of anchors 200 are installed on both the bottom plate 100a and the wall 100b of the shift 100 more effectively suppresses the horizontal deformation of the shift 100 to secure long-term stability. Get

Next, a method of constructing alternating reinforcement structures for constructing the alternating reinforcement structures is proposed.

First, a construction method for constructing a structure in which the anchor 200 is coupled to the bottom plate anchor coupling portion 300a of the shift 100 is as follows.

The ground is filled in order to install the shift 100.

And the alternation 100 in which the bottom plate anchor coupling part 300a is formed is provided.

Here, the bottom plate anchor coupling portion (300a) is the front of the pressure plate 320, the female thread portion 310 provided in the back of the pressure plate 320 and the screw pipe 311 provided in front of the pressure plate 320, or the pressure plate 320 or The inclined reinforcement member 330 installed at the rear is already formed.

In addition, in this step, the pile 400 may be installed first in the lower portion of the shift 100.

This is to determine the installation of the pile 400 and the number of installations in consideration of the horizontal resistance obtained after installing the anchor 200 in the shift (100).

After installing the shift 100, the anchor 200 is inserted through the bottom plate anchor hole 301a formed at the rear of the bottom plate anchor coupling portion 300a.

Here, the step of inserting the anchor 200 is characterized in that it is carried out before the step of back-filling the rear of the shift (100).

That is, by installing the anchor 200 to the back filling portion 10 first, and backfilling the soil 3 so that the anchor 200 is embedded, the workability is improved, and the structural stability during construction or public use Get

In particular, by increasing the horizontal resistance of the shift 100 through the anchor 200, when the back-filling operation, it is possible to solve the problem that the shift 100 is pushed forward due to the compaction pressure of the earth and sand (3).

In addition, a portion of the main body 200b of the anchor 200 is inserted into the bottom plate anchor hole 301a.

That is, when a part of the outer tube 210 into which the main body 200b is inserted is inserted into the bottom plate anchor hole 301a, the anchor 200 may be more stably coupled to the bottom plate anchor coupling part 300a. .

After the anchor 200 is inserted into the bottom plate anchor coupling portion 300a, the fastening portion 200a of the anchor 200 passes through the pressure plate 320 so that the anchor 200 is fixed to the bottom plate 100a. It is fixed by the officer 311 and the female screw 310.

The mortar 2 is poured into the bottom plate anchor hole 301a to finish the bottom plate anchor coupling part 300a with the bottom plate 100a.

When the installation work of the anchor 200 is pulled out, backsoil 3 is filled in the back filling portion 10 formed at the rear of the shift 100, and the sand 3 is compacted and finished at a predetermined height.

Through such a construction method, by installing the anchor 200 on the bottom plate 100a of the shift 100, it is possible to increase the horizontal resistance of the shift 100 to prevent the problem of displacement to ensure long-term stability. .

In addition, since the number of the piles 400 installed on the lower portion of the alternation 100 and the size of the alternating foundation can be reduced by installing the anchor 200, the economic efficiency is increased.

As described above, the anchor 200 may also be installed on the wall 100b of the shift 100 to more effectively ensure structural stability of the shift 100.

Therefore, as shown in FIGS. 5 to 9, a method of constructing alternate reinforcement structures in a structure in which both anchors 200 are installed on the bottom plate 100a and the wall 100b is described.

First, the ground is filled in order to install the shift 100.

And the alternation 100 in which the bottom plate anchor coupling part 300a and the wall anchor coupling part 300b are formed is provided (FIG. 5).

Here, the bottom plate anchor coupling portion (300a) and the wall anchor coupling portion (300b) is the pressure plate 320, the female thread portion 310 provided in the back of the pressure plate 320 and the screw pipe (311) provided in front of the pressure plate 320 , The inclined reinforcement member 330 installed in front or rear of the pressure plate 320 is already installed.

In order to install the anchor 200, first, the anchor 200 is inserted through the bottom plate anchor hole 301a formed at the rear of the bottom plate anchor coupling portion 300a, and the fastening portion 200a of the anchor 200 is attached to the pressure plate. It penetrates 320, and it is fixed by the screw pipe 311 and the female screw part 310 (FIG. 6).

The mortar is poured into the anchor hole 301 to finish the bottom plate anchor coupling portion 300a and the bottom plate 100a.

After the anchor 200 is installed in the bottom plate 100a, the soil 3 is partially backfilled in the backfill 10 formed at the rear of the shift 100 (FIG. 7).

At this time, the height of the earth and sand (3) is to be formed to the lower end of the wall anchor coupling portion (300b).

Next, in order to install the anchor 200 on the wall 100b, the anchor 200 is inserted through the wall anchor hole 301b formed at the rear of the wall anchor coupling part 300b.

Here, the installation number of the wall anchor coupling portion 300b and the anchor 200 is determined in consideration of the horizontal resistance force and the ground environment obtained by installing the anchor 200.

After inserting the anchor 200 into the wall anchor hole 301b, the fastening part 200a of the anchor 200 penetrates the pressure plate 320 so that the anchor 200 is fixed to the wall 100b. It is fixed by 310 (FIG. 8).

In order to finish the wall anchor coupling part 300b to be integrated with the wall 100b, the mortar 2 is poured into the wall fixing groove 302b, and the cement milk 1 is injected into the wall anchor hole 301b.

When installing one anchor 200 to the wall (100b) in the next step, the backfill 10 formed in the rear of the wall (100b) to backfill the soil (3), the soil 3 is compacted at a certain height And finishes (FIGS. 9, 10).

When there are a large number of anchors 200 installed on the wall 100b, in the backfilling step, only part of the soil 3 is backfilled, and after the backfilling step, the wall anchor insertion step, wall anchor fixing step, mortar casting and The cement milk injection step and the wall backfill step are repeated alternately, so that the soil 3 is compacted in multiple stages on the back of the shift 100.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: cement milk 2: mortar
3: earth and sand 10: backfill
100: shift 100a: bottom plate
100b: wall 200: anchor
200a: fastening portion 200b: main body
200c: fixing part 201: thread
210: outer tube 211: corrugated tube
220: protrusion member 230: solidified body
231: geotextile 232: grout
300a: bottom plate anchor coupling portion 300b: wall anchor coupling portion
301a: base plate anchor hole 301b: wall anchor hole
302b: wall fixing groove 310: female threaded portion
311: screw tube 320: pressure plate
330: inclined reinforcement member 400: pile

Claims (16)

As a reinforcement structure of the shift 100 including the wall 100b, the bottom plate 100a,
An anchor 200 coupled to one side of the bottom plate 100a of the alternating member 100 and the other side of which is installed at the rear filling part 10 formed at the rear of the alternating member 100;
A bottom plate anchor coupling portion 300a formed on the bottom plate 100a to couple the anchor 200 to the bottom plate 100a;
As a construction method of the shift reinforcement structure to include,
Filling step of laying the ground to install the shift 100;
Acupressure plate 320 on the bottom plate 100a, a female thread portion 310 installed at the rear of the acupressure plate 320 and a screw tube 311 provided at the front of the acupressure plate 320, the front or rear of the acupressure plate 320 An alternate installation step of installing the shift 100 in which the bottom plate anchor coupling part 300a including the inclined reinforcement member 330 is installed;
A bottom plate anchor insertion step of inserting the anchor 200 through the bottom plate anchor hole 301a formed at the rear of the bottom plate anchor coupling part 300a;
In order to fix the anchor 200 to the bottom plate 100a, the fastening part 200a of the anchor 200 passes through the pressure plate 320, and to the screw tube 311 and the female screw part 310. A bottom plate anchor fixing step for fixing by;
A mortar placing step of pouring mortar (2) into the bottom plate anchor hole (301a);
A back filling step of back filling the earth and sand (3) in the back filling portion (10) formed at the rear of the shift (100);
Tosa (3) finishing step for compacting and finishing at a certain height;
Construction method of the alternating reinforcement structure comprising a. The method of claim 1,
The anchor 200
Main body 200b;
A fastening part 200a formed at one end of the main body 200b and having a thread 201 formed on an outer surface thereof so as to be coupled to the bottom plate anchor coupling part 300a;
And a fixing part 200c formed at the other end of the main body 200b and installed at the rear filling part 10.
And a female screw portion 310 formed to couple to the screw thread 201, wherein the anchor 200 is fixed to the bottom plate anchor coupling portion 300a. 3. The method of claim 2,
The main body 200b
Inserted into the outer tube (210), the construction method of the alternating reinforcement structure characterized in that it is formed of a structure in which the cement milk (1) is injected between the outer tube (210) and the body (200b). The method of claim 3,
The outer tube 210 is
The construction method of the alternating reinforcement structure, characterized in that the surface; 3. The method of claim 2,
The bottom plate anchor coupling portion 300a
In order to distribute the stress of the anchor 200, the pressure plate 320 is installed on the bottom plate anchor coupling portion 300a so that the fastening portion 200a is coupled through;
Construction method of the alternating reinforcement structure characterized in that it further comprises. 6. The method of claim 5,
The female thread portion 310 is
A screw tube 311 formed to couple to the screw thread 201 installed at the rear of the pressure plate 320;
Construction method of the alternating reinforcement structure characterized in that it further comprises. 6. The method of claim 5,
The bottom plate anchor coupling portion 300a
In order to reinforce the pressure plate 320, the inclined reinforcement member 330 formed on at least one outer surface of the front or rear of the pressure plate 320;
Construction method of the alternating reinforcement structure characterized in that it further comprises. 3. The method of claim 2,
The fixing part 200c
Geotextile 231 is installed in a structure surrounding the outside of the fixing portion (200c);
Grout 232 which is poured into the inside of the geotextile 231; Consolidation 230 consisting of;
Construction method of alternating reinforcement structure, characterized in that formed in a structure comprising. 3. The method of claim 2,
The anchor 200
A plurality of protruding members 220 formed on the outer surface of the other end of the main body 200b;
Construction method of the alternating reinforcement structure characterized in that it further comprises. delete delete delete The method of claim 1,
Inserting the bottom plate anchor is
Construction method of the alternating reinforcement structure characterized in that a part of the main body (200b) of the anchor 200 is inserted into the bottom plate anchor coupling portion (300a). As a reinforcement structure of the shift 100 including the wall 100b, the bottom plate 100a,
An anchor 200 coupled to one side of the bottom plate 100a of the alternating member 100 and the other side of which is installed at the rear filling part 10 formed at the rear of the alternating member 100;
A bottom plate anchor coupling portion 300a formed on the bottom plate 100a to couple the anchor 200 to the bottom plate 100a;
≪ / RTI &
A wall anchor coupling portion 300b is formed on the wall 100b to couple the anchor 200 thereon.
The wall anchor coupling part 300b includes a wall fixing groove 302b formed in front of the wall 100b; And a wall anchor hole 301b formed at the rear of the wall 100b to communicate with the wall fixing groove 302b.
The anchor 200 is provided with a plurality,
At least one of the plurality of anchors 200 is coupled to the wall anchor coupling portion 300b,
The wall anchor coupling portion 300b
The anchor 200 is inserted into the wall anchor hole 301b to be coupled to the female screw part 310 installed in the wall fixing groove 302b, and the pressure plate 320 is installed to couple the anchor 200 therethrough. As a construction method of the alternating reinforcement structure, which is a structure in which the inclined reinforcement member 330 is installed on at least one outer surface of the front or rear of the pressure plate 320,
Filling step of laying the ground to install the shift 100;
Acupressure plate 320 on the bottom plate 100a, a female thread portion 310 installed at the rear of the acupressure plate 320 and a screw tube 311 provided at the front of the acupressure plate 320, the front or rear of the acupressure plate 320 An alternate installation step of installing the shift 100 in which the bottom plate anchor coupling part 300a and the wall anchor coupling part 300b including the inclined reinforcement member 330 are installed in the base plate;
A bottom plate anchor insertion step of inserting the anchor 200 through the bottom plate anchor hole 301a formed at the rear of the bottom plate anchor coupling part 300a;
In order to fix the anchor 200 to the bottom plate 100a, the fastening portion 200a of the anchor 200 passes through the pressure plate 320 to the screw tube 311 and the female screw portion 310. A bottom plate anchor fixing step for fixing by;
A mortar placing step of pouring mortar into the bottom plate anchor hole 301a;
A backfilling step of partially backfilling the earth and sand (3) in the backfilling portion (10) formed at the rear of the shift (100);
A wall anchor insertion step of inserting the anchor 200 through the wall anchor hole 301b formed at the rear of the wall anchor coupling part 300b;
A wall anchor fixing step of fixing the anchoring portion 200a of the anchor 200 through the pressure plate 320 to be fixed to the wall 100b by the female screw portion 310 so that the anchor 200 is fixed to the wall 100b. ;
Pouring mortar (2) into the wall fixing groove (302b) and pouring mortar and cement milk into the cement anchor (1) into the wall anchor hole (301b);
A wall backfill step of backfilling the earth and sand (3) to the backfill portion (10) formed at the rear of the wall (100b);
Tosa (3) finishing step for compacting and finishing at a certain height;
Construction method of the alternating reinforcement structure comprising a. 15. The method of claim 14,
When there are a plurality of anchors 200 installed on the wall 100b,
Partial backfilling of the soil (3) in the wall backfilling step,
After the wall backfilling step, the wall anchor insertion step, wall anchor fixing step, mortar pouring and cement milk injection step, wall backfill step are alternately repeated, so that the earth and sand 3 in the back of the shift 100 in multiple stages. Construction method of the alternating reinforcement structure characterized in that it is determined over. The method of claim 1,
The shift installation step
Pile installation step of installing the pile 400 in the lower portion of the shift 100;
Construction method of the alternating reinforcement structure characterized in that it further comprises.

Images