KR20190107927A - Timbering method using the reinforcing member for ground - Google Patents

Abstract

The present invention relates to a timbering method using a ground reinforcement member (100). The method includes: a drilling step of forming a drilling hole (2) on the ground (1); a primary grouting step of injecting a grout material (200A) into the drilling hole (2); a ground reinforcement member installation step of installing a ground reinforcement member (100) in the drilling hole (2); a hollow body expanding step of expanding a hollow body (110) by injecting pressure fluids (100A) into a hollow hole (111) of the hollow body (110); and a secondary grouting step of filling the hollow body (110) with the grout member (200A). Therefore, the present invention is capable of enhancing binding force between a grout material and a grout reinforcement member.

Description

TIMBERING METHOD USING THE REINFORCING MEMBER FOR GROUND}

The present invention relates to the field of civil engineering, and more particularly, to a support method using a ground reinforcing member.

The ground reinforcing member is a support for the ground and is a material supporting the tunnel and the slope.

The ground reinforcing member is used as a rock bolt for reinforcing the ground reinforcing member by inserting the ground reinforcing member into the perforated hole that drills the ground such as rock, or as shown in FIG. 2, the perforated hole for drilling the ground such as soil, weathered rock and soft rock. It is used as a soil nailing to insert and reinforce the ground reinforcement member.

There are various structures of the ground reinforcement member, and one of them is an expandable structure.

As shown in FIG. 1, the inflatable ground reinforcing member 10 is installed in the drilling hole in a state where a part of the circumference of the hollow body 12 is pressed (see 'R1' in FIG. 1), and then the hollow body By supplying high pressure water to the hollow 12A of 12, the hollow body 12 is expanded so that the expanded hollow body 12 can be fixed in close contact with the ground such as a rock (FIG. 1). See 'R2').

Here, the tip cap 14 and the end cap 16 are fitted to the line and the end of the hollow body 12, respectively, and are fixed by welding.

However, in the related art, there is a problem in that the ground reinforcing member of the ground reinforcing member is lowered due to the gap between the ground reinforcing member and the perforation hole, and when the ground is deformed, the grout material is broken and the performance of the ground reinforcing member is sharply lowered.

In the expansion process of the ground reinforcing member, when the reinforcing member is expanded from the rear of the ground reinforcing member to the front, the grout material filled in the drilling hole is pushed out of the drilling hole to the grout material filled between the drilling hole and the reinforcing member. Cavity occurs.

Specifically, as shown in Figures 3 and 4, after filling the grout material (G) in the boring hole (1) of the ground, when the reinforcing bar 21 or steel pipe 22 is inserted, it is filled inside the drilling hole Grout material (G) is not tight enough to cause problems leading to breakage.

The present invention was derived to solve the above problems, the ground reinforcement member can press the grout material filled in the drilled hole by the expansion of the ground reinforcement to fill the grout material tightly between the drilled hole and the ground reinforcement The purpose of the present invention is to provide a support method.

In order to solve the above problems, the present invention is formed to have a hollow 111 in which the pressure fluid 100A is injected through the tip, and the hollow ( A hollow body 110 expanded by a pressure fluid 100A supplied to 111; The ground reinforcing method using the ground reinforcing member 100, including; the packing portion 120 is fitted to the front outer side of the hollow body 110 in a state where the concave inlet 112 is formed, the ground (1) Perforating step of forming a perforation hole (2); A first grouting step of injecting the grout material 200A into the drilling hole 2; A ground reinforcing member installation step of installing the ground reinforcing member 100 in the drilling hole 2; In order to pressurize the grout material 200A filled in the drilling hole 2, a pressure fluid 100A is injected into the hollow 111 of the hollow body 110 to expand the hollow body 110. A hollow body expansion step of expanding in sequence from the front region of the hollow body 110 toward the rear; And a second grouting step of filling the grout material 200A inside the hollow body 110.

In the ground reinforcing member installation step, before the ground reinforcing member 100 is installed in the drilling hole 2, the front region of the recessed portion 112 of the hollow body 110 is first expanded, the hollow It is preferable to further include a; front indentation part opening step of applying an external force to the front region of the concave portion 112 of the mold body 110 to open the region of the concave portion 112 toward the outside.

In the ground reinforcing member installation step, before the ground reinforcing member 100 is installed in the drilling hole 2, the front region of the recessed portion 112 of the hollow body 110 is first expanded, the hollow A guide pipe coupling step of coupling the guide pipe 200 to the hollow body 110 so that the hollow body 110 is inserted inward from the rear side to the front edge region of the body 110; Injecting a pressure fluid (100A) into the hollow body (110) to expand the front indentation unit to first expand the front region of the hollow body (110) that is not coupled to the guide pipe (200); It is preferable to further include a guide pipe removing step of removing the guide pipe 200.

When the hollow body 110 is inflated by the pressure fluid 100A, the concave portion formed in the front region of the hollow body 110 to expand the front region of the hollow body 110 first. Preferably, the recess 112 is formed such that the length of the 112 is shorter than the length of the recess 112 formed in the rear region.

In the ground reinforcing member installation step, before the ground reinforcing member 100 is installed in the drilling hole 2, the ground region of the recessed portion 112 of the hollow body 110 is first expanded. An expansion hole forming step of inserting the hollow body 110 into (1) to form an expansion hole 3 for expanding the front region of the recess 112 first; A ground reinforcing member insertion step of inserting the ground reinforcing member 100 into the expansion hole 3 so that the front region of the recess 112 to be expanded is exposed; Injecting the pressure rapeseed (100A) into the ground reinforcing member 100, the front region expansion step of expanding the front region of the hollow body 110 exposed to the expansion hole (3); Do.

The present invention also proposes a rock bolt construction method using the support method.

The present invention together proposes a soil nailing construction method using the support method.

According to the present invention, the bonding force between the ground reinforcing member and the grout material can be improved because the grout material formed in the region between the drilling hole and the ground reinforcing member is pressurized in a process of expanding the ground reinforcing member to tightly seal the grout material filled in the drilling hole. .

1 is a first application example of the ground reinforcing member according to the prior art.
Figure 2 is a second application example of the ground reinforcing member according to the prior art.
3 is a crack distribution diagram of a third application example of the ground reinforcing member according to the prior art.
4 is a crack distribution diagram of a fourth application example of the ground reinforcing member according to the prior art.
5 to 13 show an embodiment of the ground reinforcing member according to the present invention,
5 is a perspective view of the ground reinforcing member according to an embodiment of the present invention.
Figure 6 is a process diagram showing the front indentation opening step according to an embodiment of the present invention.
7 is a process chart showing a guide pipe coupling step according to an embodiment of the present invention.
8 is a process diagram showing the expansion of the front recess portion according to an embodiment of the present invention.
9 is a process chart showing a drilling step according to an embodiment of the present invention.
10 is a process chart showing the first grouting step according to an embodiment of the present invention.
11 and 12 are process diagrams showing a hollow body expansion step according to an embodiment of the present invention.
13 is a process chart showing the second grouting step according to an embodiment of the present invention.
14 is a process chart showing the expansion hole forming step according to an embodiment of the present invention.
15 is a process chart showing the ground reinforcing member insertion step according to an embodiment of the present invention.
16 is a process diagram showing the expansion of the front region of the ground reinforcing member according to an embodiment of the present invention.

An embodiment of a support method using a ground reinforcing member according to the present invention will be described in detail with reference to the accompanying drawings, in the following description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and Duplicate explanations will be omitted.

In addition, terms such as first and second used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as the first and second components. no.

In addition, the coupling does not only mean the case where the physical contact is directly between the components in the contact relationship between the components, other components are interposed between the components, the components in the other components Use it as a comprehensive concept until each contact.

Hereinafter, a support method using a ground reinforcing member according to an embodiment of the present invention with reference to the accompanying drawings will be described in detail.

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

As shown in FIG. 5 or less, the present invention is formed to have a hollow 111 into which the pressure fluid 100A is injected through the tip, and a portion of the hollow is inserted in a circumferential direction so that the hollow portion 112 is formed. A hollow body 110 expanded by the pressure fluid 100A supplied to the 111; As a ground construction method using the ground reinforcing member 100, including; packing portion 120 is fitted to the front outer side of the hollow body 110 in the state in which the recessed portion 112 is formed, the ground (1) A drilling step of forming a drilling hole 2; A primary grouting step of injecting the grout material 200A into the drilling hole 2; A ground reinforcing member installation step of installing the ground reinforcing member 100 in the drilling hole 2; In order to pressurize the grout material 200A filled in the punching hole 2, the hollow body 110 is expanded by injecting a pressure fluid 100A into the hollow 111 of the hollow body 110, but the hollow body 110. Hollow body expansion step of sequentially expanding from the front region of the body toward the rear; And a second grouting step of filling the grout material 200A inside the hollow body 110.

The ground reinforcing member 100 installed in the drilling hole (2) is important because the bonding force is determined according to the degree of closet of the grout material filled in the drilling hole (2) is the filling of the grout material (200A).

The ground reinforcing member 100 of the present invention is expanded along the front to the rear of the concave portion 112 as shown in FIGS.

Through this structure, after the ground reinforcing member 100 is installed in the drilling hole 2 of the ground 1, the recessed part 112 expands from the front to the rear, and is previously filled in the drilling hole 2. There is an effect of pressing the grout material 200A along the rear side.

Forming the grout material 200A tightly improves the bonding force between the ground reinforcing member 100 and the grout material 200A and improves the fixing force of the ground reinforcing member 100.

Ground reinforcing member installation step of the hollow body 110 to expand the front region of the recessed portion 112 of the hollow body 110 before installing the ground reinforcing member 100 in the drilling hole (2) It is preferable to further include; the front recessed part opening step of applying an external force to the front area of the concave portion 112 so that the region of the concave portion 112 opens toward the outside.

When the front region of the concave portion 112 is first expanded, and then the pressure fluid 100A is injected again, the remaining concave portion 112 is sequentially expanded along the expanded concave portion 112.

In this case, before the ground reinforcing member 100 is installed in the drilling hole 2, the front region of the concave portion 112 is spread outward as shown in FIG. 6, and the pressure fluid 100A is injected into the hollow body 110. By first expanding the front region of the concave portion 112, the hollow body 110 may be installed in the drilling hole (2).

The front injecting part opening step widens the width of the front area of the concave part 112 to induce the first expanded area when the pressure fluid 100A is injected.

In addition, when the front area of the concave part 112 is expanded on the ground, the ground reinforcing member 100 may be installed in the hole 2 after visually confirming the expanded area.

Ground reinforcing member installation step of the hollow body 110 to expand the front region of the recessed portion 112 of the hollow body 110 before installing the ground reinforcing member 100 in the drilling hole (2) A guide pipe coupling step of coupling the guide pipe 200 to the hollow body 110 such that the hollow body 110 is inserted inward from the rear to the front edge region; Injecting the pressure fluid (100A) into the hollow body 110 to expand the front indentation unit first to expand the front region of the hollow body 110 that is not coupled to the guide pipe 200; It is preferable to further include a; guide pipe removing step of removing the guide pipe 200.

7 and 8, the guide pipe 200 is fitted from the rear of the ground reinforcing member 100 to the front edge region of the recess 112, and the pressure fluid 100A is injected into the hollow body 110. The front region of the recess 112 of () is first expanded.

Thereafter, the guide pipe 200 is removed, the ground reinforcing member 100 in which the front region of the concave inlet 112 is expanded is inserted into the drilling hole 2, and the pressure fluid 100A is injected again to prevent unexpanded yaw. Inflate the mouth 112.

When the hollow body 110 is inflated by the pressure fluid 100A, in order to first inflate the front region of the hollow body 110, the recess 112 is formed in the front region of the hollow body 110. Preferably, the recess 112 is formed such that the length is shorter than the length of the recess 112 formed in the rear region.

As shown in FIG. 5, the hollow body 110 in which the recesses 112 are formed is manufactured by processing (pressing using a pressure press) the pipe on which the hollows 111 are formed, and the recesses 112 as shown in FIG. It can be manufactured to be formed.

Processing of the hollow body 110 is formed by pressing on the outer circumferential surface of the hollow body 110 with a plate (or pressing plate) corresponding to the direction of formation of the concave portion 112, by varying the height of the plate of the front and rear The recess depths L1 and L2 may be formed differently.

Ground reinforcing member installation step is hollow in the ground (1) in order to expand the front region of the recess 112 of the hollow body 110 before installing the ground reinforcing member 100 in the drilling hole (2) An expansion hole forming step of inserting the body 110 to form an expansion hole 3 for first expanding the front region of the concave portion 112; A ground reinforcing member insertion step of inserting the ground reinforcing member 100 into the expansion hole 3 so that the front region of the recess 112 to be expanded is exposed; It is preferable to further include a; expansion of the front region to inject the pressure oil (100A) into the ground reinforcing member 100 to expand the front region of the hollow body 110 exposed to the expansion hole (3).

In this case, as another method of first expanding the front region of the recess 112 of the hollow body 110, an expansion hole 3 is formed in the ground 1 as shown in FIG. 110 is inserted into the expansion hole (3), it is inserted so that the front region of the recess 112 to be expanded is exposed to the front of the ground (1).

Then, the pressure fluid 200A is injected into the hollow body 110 to expand the front region of the concave portion 112 as shown in FIG. 16.

At this time, the region of the concave portion 112 inserted into the expansion hole 3 is constrained by the expansion hole 3, so that the front region of the concave portion 112 expands first.

In addition, the support method using the ground reinforcing member 100 of the present invention may be installed so as to face downward or horizontally to the ground, including earth and sand, weathered rock, soft rock, etc., may exhibit a function as a soil nailing to effectively reinforce the slope.

In addition, the support method using the ground reinforcing member 100 can exhibit the function of the rock bolt, there is an advantage that the field applicability is very excellent.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1: Ground 2: Hole
3: expansion hole 100: ground reinforcement member
100A: pressure fluid 110: hollow body
111: hollow 112: recessed part
120: packing part 200: guide pipe
200A: Grout

Claims (7)

The pressure fluid 100A is formed to have a hollow 111 through which the pressure fluid 100A is injected through the tip, and a part is recessed along the circumferential direction so that the recess 111 is formed. A hollow body 110 which is inflated by;
As a support method using the ground reinforcing member 100 comprising a; packing portion 120 that is fitted to the front outer side of the hollow body 110 in a state where the concave inlet portion 112 is formed by a predetermined length,
A drilling step of forming a drilling hole 2 in the ground 1;
A first grouting step of injecting the grout material 200A into the drilling hole 2;
A ground reinforcing member installation step of installing the ground reinforcing member 100 in the drilling hole 2;
In order to pressurize the grout material 200A filled in the drilling hole 2, a pressure fluid 100A is injected into the hollow 111 of the hollow body 110 to expand the hollow body 110. A hollow body expansion step of expanding in sequence from the front region of the hollow body 110 toward the rear;
A secondary grouting step of filling the grout material 200A inside the hollow body 110;
Supporting method characterized in that it comprises.
The method of claim 1,
The ground reinforcing member installation step
In order to first expand the front region of the concave portion 112 of the hollow body 110 before installing the ground reinforcing member 100 in the drilling hole (2),
And a front recess part opening step of applying an external force to the recess part 112 front region of the hollow body 110 so that the region of the recess part 112 opens outward. method.
The method of claim 1,
The ground reinforcing member installation step
In order to first expand the front region of the concave portion 112 of the hollow body 110 before installing the ground reinforcing member 100 in the drilling hole (2),
A guide pipe coupling step of coupling the guide pipe 200 to the hollow body 110 so that the hollow body 110 is inserted from the rear side to the front edge region of the hollow body 110;
Injecting a pressure fluid (100A) into the hollow body (110) to expand the front indentation unit to first expand the front region of the hollow body (110) that is not coupled to the guide pipe (200);
Supporting method further comprises a; guide pipe removing step of removing the guide pipe (200).
The method of claim 1,
When the hollow body 110 is inflated by the pressure fluid 100A, in order to first expand the front region of the hollow body 110,
The concave hole 112 is formed such that the length of the concave portion 112 formed in the front region of the hollow body 110 is shorter than the length of the concave portion 112 formed in the rear region. method.
The method of claim 1,
The ground reinforcing member installation step
In order to first expand the front region of the concave portion 112 of the hollow body 110 before installing the ground reinforcing member 100 in the drilling hole (2),
An expansion hole forming step of inserting the hollow body 110 into the ground 1 to form an expansion hole 3 for expanding the front region of the recess 112 first;
A ground reinforcing member insertion step of inserting the ground reinforcing member 100 into the expansion hole 3 so that the front region of the recess 112 to be expanded is exposed;
Injecting the pressure rapeseed (100A) into the ground reinforcing member 100, the front region expansion step of expanding the front region of the hollow body 110 exposed to the expansion hole (3); Support method to use.
Rockbolt construction method using the support method of claim 1.
Soil nailing construction method using the support method of claim 1.

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