KR102640241B1 - Ground reinforcement and retaining wall construction method using the same - Google Patents

Abstract

The present invention not only makes it possible to construct an earth retaining wall through sequential construction or alternating construction depending on site conditions using a ground reinforcement body in which expansion materials are installed on a rebar network or section steel, but also allows water blocking to be achieved without constructing a separate water blocking wall. The purpose is to provide ground reinforcement and a method of constructing an earth retaining wall using the same.
The ground reinforcement according to the present invention for achieving the above object is characterized by being composed of an expansion material fixed along the longitudinal direction on the side of a reinforcing bar network or section steel.
In addition, in order to achieve the above object, the method of constructing an earth retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to form a first drilling hole and simultaneously installing a main casing in the first drilling hole. Inserting step (S 1); Inserting a ground reinforcement into the main casing (S 2); Inflating the cylindrical elastic body by injecting air into the injection port of the cylindrical elastic body of the expansion material (S 3); pouring concrete into the first perforation hole while the cylindrical elastic body is expanded by air and simultaneously pulling out the main casing from the first perforation hole (S 4); Contracting the cylindrical elastic body by exhausting air from the expanded cylindrical elastic body (S 5); Forming a second drilling hole by excavating it to a certain diameter and depth by overlapping the first drilling hole, including the position portion of the cylindrical elastic body, and simultaneously inserting the main casing into the second drilling hole (S6); Inserting a ground reinforcement into the main casing (S 7); Inflating the cylindrical elastic body by injecting air into the injection port of the cylindrical elastic body of the expansion material (S8); pouring concrete into the second perforation hole while the cylindrical elastic body is expanded by air and simultaneously pulling out the main casing from the second perforation hole (S9); The step (S 10) of expelling air from the expanded cylindrical elastic body and contracting the cylindrical elastic body is performed repeatedly and sequentially to construct an earth retaining wall.
In order to achieve the above object, the method of constructing a retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to form a plurality of drilling holes and inserting the main casing into the plurality of drilling holes. Step (S 1); Inserting a ground reinforcement into the main casing (S 2); Inflating the cylindrical elastic body by injecting air into the injection port of the cylindrical elastic body of the expansion material (S 3); A step (S 4) of pouring concrete into a plurality of drill holes while the cylindrical elastic body is inflated by air and simultaneously pulling out the main casing from the plurality of drill holes; Contracting the cylindrical elastic body by exhausting air from the expanded cylindrical elastic body (S 5); Excavating the ground to a certain diameter and depth by overlapping a plurality of drill holes including the shrunken cylindrical elastic body to form a plurality of small-diameter drill holes and simultaneously inserting an auxiliary casing into the plurality of small-diameter drill holes (S 6 ); Inserting a ground reinforcement into the auxiliary casing (S 7); It is characterized by a step (S9) of pouring concrete into the plurality of small-diameter drilling holes and simultaneously pulling out the auxiliary casing from the plurality of small-diameter drilling holes.

Description

Ground reinforcement and retaining wall construction method using the same {Ground reinforcement and retaining wall construction method using the same}

The present invention relates to a ground reinforcement and a method of constructing an earth retaining wall using the same. In particular, an earth retaining wall can be constructed through sequential or alternating construction depending on site conditions using a ground reinforcement in which expansion material is installed on a reinforcing bar network or section steel. In addition, it relates to a ground reinforcement that allows water blocking without constructing a separate water blocking wall and a method of constructing an earth retaining wall using the same.

In general, an earth retaining wall is a temporary structure installed to prevent the inflow of collapsed earth and sand on the excavation wall to ensure safe and smooth underground construction.

In other words, the earth retaining wall prevents soil from flowing down or the ground from collapsing during civil engineering work, allowing construction to be performed without damaging existing facilities such as adjacent buildings or roads.

For the construction of earth retaining walls as described above, CIP (Cast-In-Placed Concrete Pile) method, SCW (SOIL CEMENT WALL) method, etc. are used.

Here, the CIP method is a type of column-type cast-in-place pile method, in which a drilling hole is formed by drilling the ground to a predetermined diameter using an auger equipment or T-4 equipment, and reinforcing materials such as H-piles or reinforcing bar nets are placed in the drilling hole. This is a method of forming an earth retaining wall by pouring concrete into the remaining area including the reinforcement after insertion.

However, in the case of the CIP method, earth retaining construction is possible even under a narrow work space and has the advantage of having greater rigidity compared to the cross-sectional size, but the pillars are not maintained vertically and are constructed at an angle, causing gaps between pillars and slowing down the flow rate of groundwater. If the main heat retaining wall is poorly constructed for reasons such as material separation occurring due to material separation or poor soil conditions, column bulbs are not formed properly, reinforcement measures at the joints are necessary, and if there is groundwater, the back of the main heat retaining wall There is a problem that separate water blocking methods such as LW grouting, SGR grouting, and cement grouting for water blocking are required, which takes a lot of time and money.

In addition, in the SCW method, the H pile is installed by direct hitting as close as possible, and with an earth retaining plate installed on the H pile, an injection hole is formed by overlapping the back of the H pile to form an injection hole, and then the injection hole is formed. It is filled with a ground stabilizer mixed with Sana cement and hardened, and is formed in a double layer: a wall made of H piles and retaining plates, and a continuous main heat wall in the ground.

The SCW method as described above has an excellent water blocking effect because the main heat wall is formed in a continuous manner between the wall and the ground, but the construction process is doubly complicated, extreme noise is generated during construction, and large equipment must be installed for construction. It costs a lot of money, has low construction efficiency, and has the disadvantage of lengthening the construction period.

Registered Patent 10-0375020 Registered Patent 10-0782007 Registered Patent 10-1633840

Accordingly, the present invention was developed to solve the problems described above, and it is possible to construct an earth retaining wall through sequential construction or alternating construction depending on site conditions using a ground reinforcement body in which expansion materials are installed on reinforcing bar nets or section steel. The purpose is to provide a ground reinforcement and a method of constructing an earth retaining wall using the same, which not only allows water blocking to be achieved without constructing a separate water blocking wall.

The ground reinforcement according to the present invention for achieving the above object is characterized by being composed of an expansion material fixed along the longitudinal direction on the side of a reinforcing bar network or section steel.

In addition, in order to achieve the above object, the method of constructing an earth retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to form a first drilling hole and simultaneously installing a main casing in the first drilling hole. Inserting step (S 1); Inserting a ground reinforcement into the main casing (S 2); Inflating the cylindrical elastic body by injecting air into the injection port of the cylindrical elastic body of the expansion material (S 3); pouring concrete into the first perforation hole while the cylindrical elastic body is expanded by air and simultaneously pulling out the main casing from the first perforation hole (S 4); Contracting the cylindrical elastic body by exhausting air from the expanded cylindrical elastic body (S 5); Forming a second drilling hole by excavating it to a certain diameter and depth by overlapping the first drilling hole, including the position portion of the cylindrical elastic body, and simultaneously inserting the main casing into the second drilling hole (S6); Inserting a ground reinforcement into the main casing (S 7); Inflating the cylindrical elastic body by injecting air into the injection port of the cylindrical elastic body of the expansion material (S8); pouring concrete into the second perforation hole while the cylindrical elastic body is expanded by air and simultaneously pulling out the main casing from the second perforation hole (S9); The step (S 10) of expelling air from the expanded cylindrical elastic body and contracting the cylindrical elastic body is performed repeatedly and sequentially to construct an earth retaining wall.

In order to achieve the above object, the method of constructing a retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to form a plurality of drilling holes and inserting the main casing into the plurality of drilling holes. Step (S 1); Inserting a ground reinforcement into the main casing (S 2); Inflating the cylindrical elastic body by injecting air into the injection port of the cylindrical elastic body of the expansion material (S 3); A step (S 4) of pouring concrete into a plurality of drilling holes while the cylindrical elastic body is inflated by air and simultaneously pulling out the main casing from the plurality of drilling holes; Contracting the cylindrical elastic body by exhausting air from the expanded cylindrical elastic body (S 5); Excavating the ground to a certain diameter and depth by overlapping a plurality of drill holes including the shrunken cylindrical elastic body to form a plurality of small-diameter drill holes and simultaneously inserting an auxiliary casing into the plurality of small-diameter drill holes (S 6 ); Inserting a ground reinforcement into the auxiliary casing (S 7); It is characterized by a step (S9) of pouring concrete into the plurality of small-diameter drilling holes and simultaneously pulling out the auxiliary casing from the plurality of small-diameter drilling holes.

As described above, the ground reinforcement according to the present invention and the earth retaining construction method using the same have the following effects.

First, the present invention is a structure that is continuously installed to prevent the collapse of the ground when excavating the ground to form a continuous wall. It not only serves as a foundation to support the structure as well as simply an earthen membrane or barrier, but also serves as a foundation to support the structure due to factory production. It has the advantage of being able to achieve uniformity and not requiring a rebar yard or a manufacturing site to make rebar nets.

Second, the present invention has the advantage of being able to be constructed according to field conditions through sequential construction and alternating construction.

Third, the present invention has the advantage of reducing construction costs, reducing labor costs, and shortening the construction period by eliminating the need for a separate water blocking method through overlapping construction of retaining walls.

Figure 1 is a perspective view showing a rebar network ground reinforcement according to the present invention,
Figure 2 is a plan view showing the reinforcing bar network ground reinforcement according to the present invention;
Figure 3 is an exploded perspective view of the reinforcing bar network ground reinforcement according to the present invention;
Figure 4 is a plan view showing the expanded state of the cylindrical elastic body of the reinforcing bar network ground reinforcement according to the present invention;
Figure 5 is a perspective view showing a section steel ground reinforcement according to the present invention;
Figure 6 is a plan view showing a section steel ground reinforcement according to the present invention;
Figure 7 is an exploded perspective view of the section steel ground reinforcement according to the present invention;
Figure 8 is a plan view showing the expanded state of the cylindrical elastic body of the section steel ground reinforcement according to the present invention;
Figure 9 is a construction cross-sectional view showing the process of continuously constructing an earth retaining wall using the ground reinforcement according to the present invention;
Figure 10 is a construction cross-sectional view 1 showing the process of alternately constructing earth retaining walls using the ground reinforcement according to the present invention;
Figure 11 is a construction cross-sectional view 2 showing the process of alternately constructing retaining walls using the ground reinforcement according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the attached illustration drawings.

[Example 1]

Ground reinforcement

Figure 1 is a perspective view showing a rebar network ground reinforcement according to the present invention, Figure 2 is a plan view showing a rebar network ground reinforcement according to the present invention, and Figure 3 is an exploded view of the rebar network ground reinforcement according to the present invention. It is a perspective view, and Figure 4 is a plan view showing the expanded state of the cylindrical elastic body of the reinforcing bar network ground reinforcement according to the present invention.

As shown in these drawings, the ground reinforcement (A) according to the present invention is composed of an expansion material (200) fixed to the side of the reinforcing bar network (110) or the section steel (120) along the longitudinal direction.

In other words, the ground reinforcement (A) according to the present invention has a structure in which the reinforcing bar network 110 or section steel 120 and the expansion material 200 are organically combined.

The former, the reinforcing bar network 110, includes a plurality of main reinforcing bars 112 arranged vertically in a circular manner with a certain length and diameter; It is composed of spiral band reinforcing bars 114 that are welded and installed to surround the outer peripheral surface of the plurality of main reinforcing bars 112 in a predetermined shape and are arranged in multiple stages at regular intervals.

Here, the reinforcing bar network 110 is composed of main reinforcing bars 112 and spiral band reinforcing bars 114.

The main reinforcing bar 112 uses deformed reinforcing bars having a certain diameter.

In addition, the spiral band reinforcement 114 is used as a bar that has the overall shape of an old moon, that is, is formed in a state of recess at a constant curvature on the outer peripheral surface of the garden.

That is, while the general spiral band rebar 114 forms a garden shape, the spiral band rebar 114 of the present invention forms a general garden spiral band rebar when the expansion material 200 installed therein expands by air injection. This is to accommodate the amount of expansion of the expandable material 200 in the spiral band reinforcing bar 114 to prevent it from deviating from the typical circular spiral band rebar due to excessive expansion of the expandable material 200, and circular reinforcing bars are used.

Figure 5 is a perspective view showing a section steel ground reinforcement according to the present invention, Figure 6 is a plan view showing a section steel ground reinforcement according to the present invention, and Figure 7 is an exploded perspective view showing a section steel ground reinforcement according to the present invention. 8 is a plan view showing the expanded state of the cylindrical elastic body of the section steel ground reinforcement according to the present invention.

As shown in these drawings, the ground reinforcement (A) according to the present invention is made of a section steel 120, and the section steel 120 is an I-beam, an H-beam, an L-beam, a C-beam, a T-beam, and a box-beam. It consists of one of the following:

The above-mentioned section steel 120 can be used by selecting the section steel 120 of various shapes widely available on the market when the reinforcing bar network 110 is not used depending on the field environment or when the use of the section steel 120 is necessary. It should also be noted that the implementation of the present invention is not particularly limited to the shape of the section steel 120.

Meanwhile, the expansion material 200 is formed as a long piece in the longitudinal direction of the reinforcing bar network 110 or the section steel 120 and is composed of a cylindrical elastic body 210 having a hollow portion 212, and the cylindrical elastic body 210 Air is filled in the hollow portion 212 and expanded.

That is, the cylindrical elastic body 210 has an injection port 214 formed at one end of both ends in the longitudinal direction so that air is injected into the cylindrical elastic body 210, and the other end is formed in a closed cross-sectional shape. The material of the cylindrical elastic body 210 Please note that any one of the following materials, or a mixture of elastic natural rubber, artificial rubber, hard vinyl, Fiber Reinforced Plastics (FRP), and steel plate, can be used.

In addition, it should be noted that the cylindrical elastic body 210 can be made of any elastic material other than the materials described above.

The ground reinforcement (A) according to the present invention, composed of the above-mentioned structure, is a structure that is continuously installed to prevent the collapse of the ground when excavating the ground to form a continuous earth retaining wall, and not only supports the structure as well as simply the earth retaining wall or barrier. Not only does it play a basic role in the production of rebar, but it also has the advantage of promoting uniformity of products through factory production and eliminating the need for a factory site to store rebar and make rebar nets.

[Example 2]

Continuous earth retaining wall construction

Figure 9 is a construction cross-sectional view showing the process of continuously constructing an earth retaining wall using the ground reinforcement according to the present invention.

As shown in this figure, the method of constructing an earth retaining wall using a ground reinforcement according to the present invention uses a ground reinforcement consisting of an expansion material fixed along the longitudinal direction on the side of a reinforcement made of reinforcing bar mesh 110 or section steel. As a method of constructing an earth retaining wall,

Excavating the ground (G) to a certain diameter and depth to form a first drilling hole (H1) and simultaneously inserting the main casing (C1) into the first drilling hole (H1) (S 1);

Step of inserting a ground reinforcement (A) consisting of an expansion material 200 fixed along the longitudinal direction on the side of the reinforcement 100 made of reinforcing bar network 110 or section steel 120 in the main casing (C1) ( S 2);

Inflating the cylindrical elastic body 210 by injecting air into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 (S3);

Step (S) of pouring concrete (R) into the first perforation hole (H1) while the cylindrical elastic body (210) is expanded by air and simultaneously pulling out the main casing (C1) from the first perforation hole (H1) 4);

Contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 (S 5);

Including the location portion of the cylindrical elastic body 210, the second drilling hole (H2) is formed by overlapping the first drilling hole (H1) and excavating to a certain diameter and depth, and at the same time, the main drilling hole (H2) is formed in the second drilling hole (H2). Inserting the casing (C1) (S 6);

Step (S 7) of inserting a ground reinforcement (A) consisting of an expansion material (200) fixed along the longitudinal direction on the side of the reinforcement body (100) made of reinforcing bar network (110) or section steel into the main casing (C1). ;

Inflating the cylindrical elastic body 210 by injecting air into the injection port 212 of the cylindrical elastic body 210 of the expansion material 200 (S8);

Step (S) of pouring concrete (R) into the second perforation hole (H2) while the cylindrical elastic body (210) is expanded by air and simultaneously pulling out the main casing (C1) from the second perforation hole (H2) 9);

The step (S 10) of expelling air from the expanded cylindrical elastic body 210 to shrink the cylindrical elastic body 210 is performed repeatedly and sequentially to construct an earth retaining wall.

That is, the method of constructing a retaining wall using a ground structure according to the present invention involves excavating the ground (G) to a certain diameter and depth to form a first drilling hole (H1) and at the same time forming a main casing in the first drilling hole (H1). After inserting (C1), the ground reinforcement (A) is inserted into the main casing (C1), and then air is injected into the injection port 214 of the cylindrical elastic body 210 of the inflatable material 200 to form a cylindrical elastic body ( After expanding 210), concrete (R) is poured into the first perforation hole (H1) while the cylindrical elastic body (210) is expanded by air, and at the same time, the main casing (C1) is poured from the first perforation hole (H1). ), the air is exhausted from the expanded cylindrical elastic body 210 to shrink the cylindrical elastic body 210, and then the cylindrical elastic body 210 is overlapped with the first hole H1, including the position portion thereof. After excavating to a certain diameter and depth to form a second drilling hole (H2) and simultaneously inserting the main casing (C1) into the second drilling hole (H2), the ground reinforcement (A) is placed in the main casing (C1) ) is inserted, air is injected into the injection port 212 of the cylindrical elastic body 210 of the expansion material 200 to expand the cylindrical elastic body 210, and the cylindrical elastic body 210 is inflated by air. After pouring concrete (R) into the second drilling hole (H2) and simultaneously pulling out the main casing (C1) from the second drilling hole (H2), air is exhausted from the expanded cylindrical elastic body 210 to form a cylindrical shape. It is characterized in that the earth retaining wall is constructed by repeatedly and sequentially performing the process of shrinking the elastic body 210.

The method of constructing a retaining wall using a ground structure according to the present invention, which consists of the steps described above, applies contraction and expansion of the expansion material to the existing CIP method and sequentially constructs it in the order of perforation, thereby creating a separate layer through overlapping construction of the retaining wall. It has an effect that does not require a water treatment method.

[Example 3]

Earth retaining wall alternating construction 1

Figure 10 is a construction cross-sectional view showing the process of alternately constructing retaining walls using the ground reinforcement according to the present invention.

As shown in this figure, the method of constructing an earth retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to form a plurality of drilling holes (H1, H2, H3...) Inserting the main casing (C1) into a plurality of drilling holes (S 1); Inserting the ground reinforcement (A) into the main casing (C1) (S 2); Inflating the cylindrical elastic body 210 by injecting air into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 (S3); With the cylindrical elastic body 210 expanded by air, concrete (R) is poured into the plurality of drilling holes (H1, H2, H3...) and at the same time, the plurality of drilling holes (H1, H2, H3...) are poured. Step (S 4) of drawing the main casing (C1) from .); Contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 (S 5); The contracted cylindrical elastic body 210 is overlapped with a plurality of drilling holes (H1, H2, H3...), and the ground is excavated to a certain diameter and depth to form a plurality of small-diameter drilling holes (h1, h2, h3...). .) and simultaneously inserting the auxiliary casing (C2) into a plurality of small-diameter drilling holes (h1, h2, h3...) (S 6); Inserting the ground reinforcement (A) into the auxiliary casing (C2) (S 7); Concrete (R) is poured into the plurality of small-diameter drilling holes (h1, h2, h3...) and at the same time, the auxiliary casing (C2) is installed from the plurality of small-diameter drilling holes (h1, h2, h3...). The earth retaining wall is constructed by performing the pulling steps (S 9) sequentially.

In other words, the method of constructing an earth retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to form a plurality of drilling holes (H1, H2, H3...) and at the same time forming a main hole in the plurality of drilling holes. After inserting the casing (C1), the reinforcing bar network of the ground reinforcement (A) is inserted into the main casing (C1), and then air is injected into the inlet 214 of the cylindrical elastic body 210 of the inflatable material 200. After expanding the cylindrical elastic body 210, concrete (R) is poured into the plurality of drilling holes (H1, H2, H3...) while the cylindrical elastic body 210 is expanded by air, and at the same time, the cylindrical elastic body 210 is expanded by air. After drawing the main casing (C1) from the perforated hole (H1, H2, H3...), air is exhausted from the expanded cylindrical elastic body 210 to shrink the cylindrical elastic body 210, and then the cylindrical elastic body 210 is contracted. By overlapping multiple drilling holes (H1, H2, H3...), including the elastic body 210, and excavating the ground to a certain diameter and depth, forming multiple small-diameter drilling holes (h1, h2, h3...) At the same time, after inserting the auxiliary casing (C2) into the plurality of small diameter drilling holes (h1, h2, h3...), and then inserting the section steel 120 into the auxiliary casing (C2), Concrete (R) is poured into the large-diameter drilling holes (h1, h2, h3...), and at the same time, the auxiliary casing (C2) is pulled out from a plurality of small-diameter drilling holes (h1, h2, h3...) It is characterized by the construction of multiple earth retaining walls.

Here, construction is performed by inserting a ground reinforcement (A) composed of a reinforcing bar network and an expansion material into the above-mentioned large-diameter drilling hole (H1), and construction is performed by inserting a section steel (120) into the above-mentioned small-diameter drilling hole (h1). Do it as

The method of constructing an earth retaining wall using a ground structure according to the present invention, which consists of the steps described above, applies the contraction and expansion of the expansion material to the existing CIP method and constructs it alternately regardless of the drilling order, thereby performing overlapping construction of the earth retaining wall. There is an effect that does not require a separate water treatment method.

[Example 4]

Earth retaining wall alternating construction 2

Figure 11 is a construction cross-sectional view 2 showing the process of alternately constructing retaining walls using the ground reinforcement according to the present invention.

As shown in this figure, the method of constructing an earth retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to alternately form a plurality of drilling holes (H1, H3, H5...) At the same time, inserting the main casing (C1) into a plurality of alternately formed drilling holes (H1, H3, H5...) (S 1); Inserting the ground reinforcement (A) into the main casing (C1) (S 2); Inflating the cylindrical elastic body 210 by injecting air into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 (S3); While the cylindrical elastic body 210 is inflated by air, concrete (R) is poured into a plurality of alternately formed perforations (H1, H3, H5...) and at the same time, a plurality of perforation holes are formed alternately. Pulling out the main casing (C1) from (H1, H3, H5...) (S 4); Forming a plurality of columnar solids by curing the concrete (R) placed in the plurality of alternately formed drill holes (H1, H3, H5...) for a certain period of time (S 5); Contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 (S 6); By overlapping between one side and the other side of the previously constructed columnar solid body, the ground is excavated to a certain diameter and depth to form drilling holes (H2, H4, H6...). Step (S 7) of inserting the main casing (C1) into .); Inserting a reinforcing bar network or section steel into the main casing (C1) (S 8); The step (S9) of pouring concrete (R) or grout material into the reinforcing bar network or section steel and simultaneously pulling out the main casing (C1) from the drilling holes (H2, H4, H6...) is sequentially performed to block the earth. Construct the wall.

In other words, the method of constructing a retaining wall using a ground reinforcement according to the present invention involves excavating the ground to a certain diameter and depth to alternately form a plurality of drilling holes (H1, H3, H5...) After inserting the main casing (C1) into the formed plurality of drilling holes (H1, H3, H5...), a plurality of main reinforcing bars (112) having a certain length and diameter are arranged vertically and annularly within the main casing (C1). class; The plurality of main reinforcing bars 112 are welded and installed to surround the outer circumferential surface in a predetermined shape and are arranged in multiple stages at regular intervals, and the long and short axes are recessed inward in proportion to the curvature of the outer circumferential surface from one point to the other. On the side of the reinforcing bar network 110 composed of spiral band reinforcing bars 114 formed in an oval shape or the section steel 120 composed of any one of I-beams, H-beams, L-beams, C-beams, T-beams, and box-beams. It is fixedly installed along the longitudinal direction, is formed long in the longitudinal direction, and has a hollow portion 212. One end of both ends in the longitudinal direction is formed with an inlet 214 to allow air to be injected therein, and the other end is closed. It is composed of a cylindrical elastic body 210 composed of a shape, and the cylindrical elastic body 210 is expanded by filling the hollow portion 212 with air, and is made of any one of natural rubber, artificial rubber, hard vinyl, fiber-reinforced plastic, and steel plate. After inserting the ground reinforcement (A) made of the expansion material 200 composed of materials or a mixture, air is injected into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 to expand the cylindrical elastic body 210. After the cylindrical elastic body 210 is expanded by air, concrete (R) is poured into the plurality of alternately formed perforations (H1, H3, H5...) and at the same time, the plurality of alternately formed After pulling out the main casing (C1) from the plurality of perforation holes (H1, H3, H5...), concrete (R) is placed in the plurality of alternately formed perforation holes (H1, H3, H5...) After curing for a certain period of time to form a plurality of columnar solids, air is exhausted from the expanded cylindrical elastic body 210 to shrink the cylindrical elastic body 210, and then the expansion material is separated from the ground reinforcement, By overlapping between one side and the other side of the previously constructed columnar solid body, the ground is excavated to a certain diameter and depth to form drilling holes (H2, H4, H6...). After inserting the main casing (C1) into the main casing (C1), inserting a general rebar network or section steel into the main casing (C1), pouring concrete (R) or grout material into the rebar network or section steel and simultaneously drilling holes. It is characterized by pulling out the main casing (C1) from (H2, H4, H6...) and constructing a plurality of earth retaining walls at the same time.

Here, the method of constructing a retaining wall using a ground reinforcement according to the present invention is similar to Example 3, but the main technical feature of Example 4 is that the size of the drill hole and the size of the consolidated body are applied equally.

In other words, it is clear that this is a construction that further improved the water resistance in the overlapping area as in Example 3.

Therefore, the method of constructing a retaining wall using a ground structure according to the present invention, which consists of the steps described above, applies contraction and expansion of the expansion material to the existing CIP method and constructs it alternately regardless of the drilling order, thereby allowing the overlap of the retaining wall. Through construction, there is an effect that does not require a separate water blocking method.

The preferred embodiments described in the detailed description of the present invention are illustrative and not limiting, and the scope of the present invention is indicated by the appended claims, and all modifications that fall within the meaning of the claims are included in the present invention. It is included.

110: rebar network 112: main rebar
114: Spiral band rebar 120: Section steel
200: expansion material 210: cylindrical elastic body
212: hollow part 214: injection port
A: Ground reinforcement C1: Main casing
C2: Auxiliary casing G: Ground
H1: 1st hole H2: 2nd hole
H3: Third drilling hole h1: Small diameter first drilling hole
h2: Small-diameter first drilling hole h3: Small-diameter first drilling hole
R: Concrete S: Grout material

Claims (31)

It consists of an expansion material 200 fixedly installed along the longitudinal direction on the side of the reinforcing bar network 110 or the section steel 120, and the reinforcing bar network 110 includes a plurality of main reinforcing bars 112 arranged in a vertical ring annular manner with a certain length and diameter. )class; It is composed of spiral band reinforcing bars 114 that are welded and installed to surround the outer peripheral surface of the plurality of main reinforcing bars 112 in a predetermined shape and are arranged in multiple stages at regular intervals, and the spiral band reinforcing bars 114 are located at one point on the outer circumferential surface of the garden. It is formed in an oval shape with a long axis and a short axis so as to be recessed inward in proportion to the curvature of the outer circumferential surface from the dot to the dot, and the inflatable material 200 is formed long in the longitudinal direction and is a cylindrical elastic body 210 with a hollow portion 212. Constructed, the cylindrical elastic body 210 is expanded by filling the hollow portion 212 with air, and one of the two ends in the longitudinal direction of the cylindrical elastic body 210 is formed with an injection port 214 so that air is injected into the cylindrical elastic body 210. and the other end is configured in a closed shape, the cylindrical elastic body 210 is made of any material or a mixture of natural rubber, artificial rubber, and hard vinyl, and the section steel 120 is I-beam steel, H-beam steel, A ground reinforcement body characterized by being composed of any one of the cross-sectional shapes of L-beam, C-beam, T-beam, and box-beam. delete delete delete delete delete delete Excavating the ground (G) to a certain diameter and depth to form a first drilling hole (H1) and simultaneously inserting the main casing (C1) into the first drilling hole (H1) (S 1);
Inserting a ground reinforcement (A) composed of an expansion material (200) into the main casing (C1) (S 2);
Inflating the cylindrical elastic body 210 by injecting air into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 (S3);
Step (S) of pouring concrete (R) into the first perforation hole (H1) while the cylindrical elastic body (210) is expanded by air and simultaneously pulling out the main casing (C1) from the first perforation hole (H1) 4);
Contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 (S 5);
Including the location portion of the cylindrical elastic body 210, the second drilling hole (H2) is formed by overlapping the first drilling hole (H1) and excavating to a certain diameter and depth, and at the same time, the main drilling hole (H2) is formed in the second drilling hole (H2). Inserting the casing (C1) (S 6);
Inserting a ground reinforcement (A) composed of an expansion material (200) into the main casing (C1) (S 7);
Inflating the cylindrical elastic body 210 by injecting air into the injection port 212 of the cylindrical elastic body 210 of the expansion material 200 (S8);
Step (S) of pouring concrete (R) into the second perforation hole (H2) while the cylindrical elastic body (210) is expanded by air and simultaneously pulling out the main casing (C1) from the second perforation hole (H2) 9);
A method of constructing an earth retaining wall using a ground reinforcement, characterized in that the step (S 10) of contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 is performed repeatedly and sequentially to construct an earth retaining wall. . According to clause 8,
The ground reinforcement (A) is a method of constructing a retaining wall using a ground reinforcement, characterized in that it is composed of an expansion material (200) fixed to the side of the reinforcing bar network (110) or the section steel (120) along the longitudinal direction. According to clause 9,
The reinforcing bar network 110 includes a plurality of main reinforcing bars 112 arranged vertically and circularly with a certain length and diameter; A method of constructing an earth retaining wall using a ground reinforcement, characterized in that it is composed of spiral band reinforcing bars (114) that are welded and installed to surround the outer peripheral surface of the plurality of main reinforcing bars (112) in a predetermined shape and are arranged in multiple stages at regular intervals. According to clause 10,
The spiral band reinforcement 114 is an earth retaining wall construction method using a ground reinforcement, characterized in that the spiral band reinforcement 114 is formed in an oval shape with a long axis and a short axis so as to be recessed inward in proportion to the curvature of the outer surface from one point to another point on the outer circumferential surface of the garden. According to clause 9,
The inflatable material 200 is formed to be long in the longitudinal direction and is composed of a cylindrical elastic body 210 having a hollow portion 212. The cylindrical elastic body 210 is expanded by filling the hollow portion 212 with air. A method of constructing an earth retaining wall using ground reinforcement. According to clause 12,
The cylindrical elastic body 210 is a ground reinforcement body, characterized in that one end of both ends in the longitudinal direction has an injection hole 214 formed to allow air to be injected into the cylindrical elastic body, and the other end is closed. According to claim 12 or 13,
The cylindrical elastic body 210 is a ground reinforcement body, characterized in that it is made of any material or a mixture of natural rubber, artificial rubber, and hard vinyl. According to clause 9,
The section steel 120 is a ground reinforcement body, characterized in that it is composed of any one of the cross-sectional shapes of I-beam, H-beam, L-beam, C-beam, T-beam, and box-beam. Excavating the ground to a certain diameter and depth to form a plurality of drilling holes (H1, H2, H3...) and simultaneously inserting the main casing (C1) into the plurality of drilling holes (S 1);
Inserting a ground reinforcement (A) composed of an expansion material (200) into the main casing (C1) (S 2);
Inflating the cylindrical elastic body 210 by injecting air into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 (S3);
With the cylindrical elastic body 210 expanded by air, concrete (R) is poured into the plurality of drilling holes (H1, H2, H3...) and at the same time, the plurality of drilling holes (H1, H2, H3...) are poured. Step (S 4) of drawing the main casing (C1) from .);
Contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 (S 5);
The contracted cylindrical elastic body 210 is overlapped with a plurality of drilling holes (H1, H2, H3...), and the ground is excavated to a certain diameter and depth to form a plurality of small-diameter drilling holes (h1, h2, h3...). .) and simultaneously inserting the auxiliary casing (C2) into a plurality of small-diameter drilling holes (h1, h2, h3...) (S 6);
Inserting the ground reinforcement (A) into the auxiliary casing (C2) (S 7);
Concrete (R) is poured into the plurality of small-diameter drilling holes (h1, h2, h3...) and at the same time, the auxiliary casing (C2) is installed from the plurality of small-diameter drilling holes (h1, h2, h3...). A method of constructing an earth retaining wall using a ground reinforcement, characterized in that it consists of a pulling step (S 9). According to clause 16,
The ground reinforcement (A) is a method of constructing a retaining wall using a ground reinforcement, characterized in that it is composed of an expansion material (200) fixed to the side of the reinforcing bar network (110) or the section steel (120) along the longitudinal direction. According to clause 17,
The reinforcing bar network 110 includes a plurality of main reinforcing bars 112 arranged vertically and circularly with a certain length and diameter; A method of constructing an earth retaining wall using a ground reinforcement, characterized in that it is composed of spiral band reinforcing bars (114) that are welded and installed to surround the outer peripheral surface of the plurality of main reinforcing bars (112) in a predetermined shape and are arranged in multiple stages at regular intervals. According to clause 18,
The spiral band reinforcement 114 is an earth retaining wall construction method using a ground reinforcement, characterized in that it is formed in an oval shape with a long axis and a short axis so as to be recessed inward in proportion to the curvature of the outer circumferential surface from one point to another point on the outer circumferential surface of the garden. According to clause 17,
The inflatable material 200 is formed to be long in the longitudinal direction and is composed of a cylindrical elastic body 210 having a hollow portion 212. The cylindrical elastic body 210 is expanded by filling the hollow portion 212 with air. A method of constructing an earth retaining wall using ground reinforcement. According to clause 20,
An earth retaining construction method using a ground reinforcement, characterized in that the cylindrical elastic body 210 has an injection hole 214 formed at one end of both ends in the longitudinal direction to allow air to be injected into the cylindrical elastic body 210, and the other end is closed. According to claim 20 or 21,
The cylindrical elastic body 210 is a soil retaining construction method using a ground reinforcement, characterized in that it is made of any one material or a mixture of natural rubber, artificial rubber, hard vinyl, fiber-reinforced plastic, and steel plate. According to clause 17,
The section steel 120 is an earth retaining construction method using a ground reinforcement, characterized in that it is composed of any one of the cross-sectional shapes of I-beam, H-beam, L-beam, C-beam, T-beam, and box-beam. By excavating the ground to a certain diameter and depth, a plurality of drilling holes (H1, H3, H5...) are formed alternately, and at the same time, a plurality of drilling holes (H1, H3, H5...) are formed alternately. Inserting the main casing (C1) (S 1);
Inserting a ground reinforcement (A) composed of an expansion material (200) into the main casing (C1) (S 2);
Inflating the cylindrical elastic body 210 by injecting air into the injection port 214 of the cylindrical elastic body 210 of the expansion material 200 (S3);
While the cylindrical elastic body 210 is inflated by air, concrete (R) is poured into a plurality of alternately formed perforations (H1, H3, H5...) and at the same time, a plurality of perforation holes are formed alternately. Pulling out the main casing (C1) from (H1, H3, H5...) (S 4);
Forming a plurality of columnar solids by curing the concrete (R) placed in the plurality of alternately formed drill holes (H1, H3, H5...) for a certain period of time (S 5);
Contracting the cylindrical elastic body 210 by exhausting air from the expanded cylindrical elastic body 210 (S 6);
By overlapping between one side and the other side of the previously constructed columnar solid body, the ground is excavated to a certain diameter and depth to form drilling holes (H2, H4, H6...). Step (S 7) of inserting the main casing (C1) into .);
Inserting a reinforcing bar network or section steel into the main casing (C1) (S 8);
Characterized in the step (S9) of pouring concrete (R) or grout material into the reinforcing bar network or section steel and simultaneously pulling out the main casing (C1) from the drilled holes (H2, H4, H6...). Earth retaining wall construction method using ground reinforcement. According to clause 24,
The ground reinforcement (A) is a method of constructing a retaining wall using a ground reinforcement, characterized in that it is composed of an expansion material (200) fixed to the side of the reinforcing bar network (110) or the section steel (120) along the longitudinal direction. According to clause 25,
The reinforcing bar network 110 includes a plurality of main reinforcing bars 112 arranged vertically and circularly with a certain length and diameter; A method of constructing an earth retaining wall using a ground reinforcement, characterized in that it is composed of spiral band reinforcing bars (114) that are welded and installed to surround the outer peripheral surface of the plurality of main reinforcing bars (112) in a predetermined shape and are arranged in multiple stages at regular intervals. According to clause 26,
The spiral band reinforcement 114 is an earth retaining wall construction method using a ground reinforcement, characterized in that it is formed in an oval shape with a long axis and a short axis so as to be recessed inward in proportion to the curvature of the outer circumferential surface from one point to another point on the outer circumferential surface of the garden. According to clause 25,
The inflatable material 200 is formed to be long in the longitudinal direction and is composed of a cylindrical elastic body 210 having a hollow portion 212. The cylindrical elastic body 210 is expanded by filling the hollow portion 212 with air. A method of constructing an earth retaining wall using ground reinforcement. According to clause 28,
An earth retaining construction method using a ground reinforcement, characterized in that the cylindrical elastic body 210 has an injection hole 214 formed at one end of both ends in the longitudinal direction to allow air to be injected into the cylindrical elastic body 210, and the other end is closed. According to claim 28 or 29,
The cylindrical elastic body 210 is a soil retaining construction method using a ground reinforcement, characterized in that it is made of any one material or a mixture of natural rubber, artificial rubber, hard vinyl, fiber-reinforced plastic, and steel plate. According to clause 24,
The section steel 120 is an earth retaining construction method using a ground reinforcement, characterized in that it is composed of any one of the cross-sectional shapes of I-beam, H-beam, L-beam, C-beam, T-beam, and box-beam.

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