KR20110092987A - Boring system and boring method using the same - Google Patents

Abstract

PURPOSE: A boring system and a boring method using the same are provided to improve a water barrier effect between piles by easily performing pile insertion work. CONSTITUTION: A boring system comprises a protrusion member and a guide groove forming member(120). The protrusion member has a protrusion and heads. The heads are extended from both ends of the protrusion. The guide groove forming member comprises a receiving space forming unit(121) and a cut unit(122). The receiving space forming unit forms a receiving space for accepting the heads. The cut unit is formed outside the receiving space to prevent the heads from being deviated from the receiving space.

Description

Boring system and boring method using same {BORING SYSTEM AND BORING METHOD USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a method of drilling for the formation of underground walls.

At present, C.I.P. (cast in place pile) method, S.C.W. (soil cement wall) method and the like are mainly used as a method for forming walls in the ground for the purpose of soil barrier and order.

The cast in place pile (CIP) method is a kind of cast-in-place casting pile, which is a method of forming a earth wall by injection-type concrete after drilling to a predetermined diameter, and has the advantage of excellent strength because it forms a cast-heated rigid body. It has the disadvantage that the possibility of water leakage is great.

The SCW (soil cement wall) method is a method of forming a wall by injecting oil cement after drilling to the planned depth as a main heat-based underground wall, and forming a earth wall by inserting an H file as a stress material. On the other hand, it has the disadvantage of low strength.

That is, when the order wall structure requires high strength due to the condition of the site, the C.I.P. A column-type cast-in-place pile method, such as the construction method, may be appropriate. This basically takes the manner in which one cast-in-place pile is formed by a casing, so that water flowing between the piles formed independently of each other is discharged. There is a fundamental problem that is difficult to block.

In order to solve such a problem, an overlap arrangement method in which parts of each pile are overlapped with each other, a method of arranging piles in a shape of a pile, a wall made of soil cement between piles, or a separate basket by reinforcing baskets, etc. A method of installing a structure has been devised.

In particular, in recent years, as shown in Figure 1, a plurality of pipes 10 are provided with a guide groove forming member 12 in one pipe, so as to perform a drilling operation in a mutually guided manner, the guide in the other pipe By installing the protruding member 11 for the purpose of guaranteeing the perpendicularity of the drilled holes formed adjacent to each other by their guide action, a method for increasing the order effect by minimizing the gap between the piles formed in the drilled holes is provided. Some have been studied.

However, even in such a method, the drilling device performs the excavation work through the inner region of the tubular body 10, and the tubular body 10 itself has no choice but to carry out the punching work by driving the tubular body 10. If the lower end of the rock has been raised a problem that there is a limit in entering the tube 10 in the ground.

The present invention was derived to solve the problems as described above, by using the drilling system and the same to increase the ordering effect between the piles in the column-type cast-in-place pile method to facilitate the intrusion of the pipe itself Its purpose is to present a drilling method.

The present invention provides a perforation system for drilling the ground by mutual guide driving of a plurality of tubular bodies (100), wherein one of the tubular bodies (100) is a protrusion (111) formed along the longitudinal direction and the protrusion ( A guide protrusion member 110 including a head 112 extending to both sides at the end of the 111 is provided, the other one of the plurality of the tubular body 100 is the left and right swing of the head 112 The storage space forming unit 121 and the protrusion 111 may be left and right swinged to form a storage space to be accommodated, and the trough formed outside the storage space may be prevented from being separated from the head 112. The present invention provides a punching system comprising a guide groove forming member 120 including a recess 122.

The head 112 is formed to be curved in a curved direction in the tube body 100 having the guide member 110 for the guide, the storage space forming portion 121 is curved of the head 112 It is preferable that it is formed in the shape corresponding to a shape.

The storage space forming unit 121 is a pair of side wall members 121a spaced apart from each other along the longitudinal direction of the tubular body 100; In order to form the trim 122, each of the pair of side wall members 121 a may be extended to the inside, and a trim part forming member 121 b formed in a curved shape.

The tubular body 100 having the guide groove forming member 120 has a recessed portion 123 formed on a sidewall thereof to allow the head portion 112 to be inserted therein, and the storage space of the head portion 112 is the recessed portion ( 123 and the storage space forming unit 121 are preferably formed.

The present invention provides a drilling method using the drilling system, the drilling step of forming a drilling hole (1) by excavation; Inserting the pipe body (100) having the guide groove forming member (120) into the drilling hole (1); Using the tubular body 100 provided with the guide member 110 for the guide to form a drilled hole (1) adjacent to the drilled hole (1), by the guide groove forming member 120 to project the guide The adjacent drilling step for drilling the ground by the drilling equipment through the inner region of the tubular body 100 while the member 110 is guided, and drilling the ground by the left and right swing of the tubular body 100; It also presents a drilling method characterized in that.

The present invention provides a drilling method using the drilling system, comprising: a large-diameter tube having a large-diameter tube (100a) provided with the guide member (110) for the guide; A small diameter tube having a small diameter tube (100b) provided with the guide protrusion member (110) and the guide groove forming member (120); A drilling step of forming a drilling hole 1 by excavation; Inserting the small-diameter tube (100b) for inserting the small-diameter tube (100b) into the drilling hole (1); The large-diameter tubular body 100a is formed by using the large-diameter tubular body 100a to form a drilled hole 1 adjacent to the drilled hole 1, by the guide groove forming member 120 of the small-diameter tubular body 100b. While excavating the ground by the drilling equipment through the inner region of the large-diameter tube 100a while guiding the protruding member 110 of the guide, and excavating the ground by the left and right swing of the large-diameter tube 100a Adjacent drilling step of forming the drilling hole (1); A large diameter tube leaving step of separating the large diameter tube (100a) from the adjacent hole (1); Presenting a puncture method comprising a; continuously forming the puncture hole (1) by repeating the small diameter tube (100b) insertion step, adjacent drilling step, large diameter tube separation step.

The present invention proposes a perforation system and a perforation method using the same to facilitate the indentation work of the pipe itself to increase the ordering effect between the piles in the column-type cast-in-place pile method.

1 is a block diagram of a conventional drilling system.
Figure 2 below shows an embodiment of the present invention,
2 is a block diagram of one embodiment of a drilling system.
3 is a cross-sectional view of the tube having a guide member for guide.
Figure 4 is a cross-sectional view of the tube having a guide groove forming member.
5 to 7 is a process diagram of one embodiment of a drilling method.

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

As shown below in FIG. 2, the present invention basically relates to a drilling system for drilling the ground by mutual guide driving of a plurality of tubular bodies 100.

Here, one of the plurality of tubular bodies (100) is a guide member 110 for a guide including a protrusion 111 formed along the longitudinal direction, and the head portion 112 is formed extending to both sides at the end of the protrusion 111. It is provided.

The other one of the plurality of tubular bodies 100 is capable of oscillating the left and right of the storage space forming unit 121 and the protrusion 111 to form an accommodating space in which the left and right swings of the head 112 can be accommodated. It is provided with a guide groove forming member 120 including a trim 122 formed on the outside of the storage space to prevent the head 112 from being separated.

A drilling method using such a drilling system comprises a drilling step of first forming a drilling hole (1) by excavation; Inserting the pipe body (100) having the guide groove forming member (120) into the drilling hole (1); Using the tubular body 100 provided with the guide member 110 for the guide to form a punched hole 1 adjacent to the drilled hole 1, the guide member 110 for the guide by the guide groove forming member 120 While the guide is excavating the ground by the drilling equipment through the inner region of the tubular body 100, and adjacent drilling step for excavating the ground by the left and right swing of the tubular body 100; (FIG. 2) .

That is, basically, by the mutual guide action of the guide member 110 for guiding and the guide groove forming member 120 to allow the both sides of the tubular body 100 adjacent to form a punching hole (1), the guide protrusion Since the member 110 may swing from both sides of the guide groove forming member 120 to both sides, the lower end of the drilling operation by the pipe body (pipe body used to form the adjacent drilling hole) having the guide member 110 for guides. If a rock appears in the rock, the tube can be rocked from side to side by a separate device, or vibrated by a vibrator so that excavation can be performed.

Therefore, in addition to the driving of the tubular body as described above, since the excavation work by the above-described left and right swing, vibrating is possible, easy excavation work is possible even if a rock appears in the lower part of the tubular body, thereby ensuring the verticality of the drilled hole. Therefore, it is possible to obtain the effect of increasing the ordering effect between piles in the casting method of cast-in-place casting method.

Since the left and right oscillation of the tube body 100 occurs along a circular shape that is a cross-section of the tube body, the head 112 in the guide member 110 for guide is a tube body 100 having a guide member 110 for guide. It is formed to be curved in the curved direction, the receiving space forming portion 121 of the guide groove forming member 120 is formed in a shape corresponding to the curved shape of the head 112 for smooth progress of the above rocking operation Preferred (FIG. 3).

The storage space forming portion 121 of the guide groove forming member 120 includes a pair of sidewall members 121a spaced apart from each other along the longitudinal direction of the tube 100; In order to form the trim portion 122, it is extended to each of the inner side of the pair of side wall members 121a, and a trim portion forming member 121b formed in a curved shape; Preferred (FIG. 4).

In order to ensure that the left and right flow of the head 112 is made stable, the tubular body 100 having the guide groove forming member 120 is formed with a depression 123 in the side wall so that the head 112 is introduced, The storage space of the head 112 is preferably formed by the recessed portion 123 and the storage space forming portion 121 (FIG. 4).

Hereinafter, an embodiment of a drilling method using a drilling system according to the present invention will be described.

First, a large-diameter tube 100a having a guide protrusion member 110 is provided, and a small-diameter tube body 100b is provided with both a guide protrusion member 110 and a guide groove forming member 120.

The drilling hole 1 is formed by excavation, and the small diameter tube 100b is inserted into the drilling hole 1 (Fig. 5).

Using the large-diameter tubular body 100a to form another drilled hole 1 adjacent to the upper perforated hole 1, the guide of the large-diameter tubular body 100a by the guide groove forming member 120 of the small-diameter tubular body 100b. Excavating the ground by the drilling equipment through the inner region of the large-diameter tube (100a) while guiding the protruding member (110), and excavating the ground by the left and right swing of the large-diameter tube (100a) adjacent hole (1) ) (FIG. 6).

The large diameter tube 100a is detached from the adjacent drilling hole 1, and the small diameter tube 100b is inserted again (FIG. 7).

Such small diameter tube insertion step, adjacent drilling step, large diameter pipe separation step is repeated to form a continuous drilling hole (1).

In this way, while using the large diameter tube 100a for the drilling operation of the adjacent hole, while leaving the large diameter tube 100a after the drilling and inserting the small diameter tube 100b again, the large diameter tube 100a is guided by this. The reason for puncturing the adjacent perforation holes by) is that, as shown in FIG. 7, the perforation holes 1 overlap each other by a predetermined area so that a high degree of order effect is obtained by preventing gaps between the piles to be formed in the future. For sake.

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: drilling hole 100: tube
100a: large diameter tube 100b: small diameter tube
110: projecting member for the guide 111: protrusion
112: head 120: guide groove forming member
121: storage space forming portion 121a: side wall member
121b: trimming part forming member 122: trimming part
123: depression

Claims (6)

In the drilling system for drilling the ground by the mutual guide drive of the plurality of pipe bodies (100),
One tube of the plurality of tube 100
Protruding member 110 including a protrusion 111 formed along the longitudinal direction, and the head 112 extending to both sides at the end of the protrusion 111,
The other one of the plurality of tubular bodies 100
The storage space forming part 121 which forms a storage space for allowing the left and right swinging of the head 112 to be accommodated, the left and right swinging of the protrusion 111 is possible, and the separation of the head 112 is prevented. Perforation system, characterized in that provided with a guide groove forming member (120) comprising a trim portion (122) formed on the outside of the receiving space. The method of claim 1,
The head 112 is formed to be curved in a curved direction in the tubular body 100 having the guide member 110 for the guide,
The storage space forming unit 121 is a punching system, characterized in that formed in a shape corresponding to the curved shape of the head (112). The method of claim 2,
The storage space forming unit 121 is
A pair of sidewall members 121a spaced apart from each other along the longitudinal direction of the tubular body 100;
To form the trim 122, each of the pair of side wall member 121a is formed extending inwardly, and a trim forming member 121b formed in a curved shape;
Perforation system comprising a. The method of claim 3,
Pipe body 100 having the guide groove forming member 120 is
Recess 123 is formed on the side wall so that the head 112 is drawn, the storage space of the head 112 is formed by the recess 123 and the storage space forming portion 121. Drilling system. As a drilling method using the drilling system of any one of claims 1 to 4,
A drilling step of forming a drilling hole 1 by excavation;
Inserting the pipe body (100) having the guide groove forming member (120) into the drilling hole (1);
Using the tubular body 100 provided with the guide member 110 for the guide to form a drilled hole (1) adjacent to the drilled hole (1), by the guide groove forming member 120 to project the guide Adjacent drilling step of excavating the ground by the drilling equipment through the inner region of the tubular body 100 while allowing the member 110 to be guided, and excavating the ground by the left and right swing of the tubular body 100;
Drilling method comprising a. As a drilling method using the drilling system of any one of claims 1 to 4,
A step of providing a large-diameter tube having a large-diameter tube 100a provided with the guide member 110 for the guide;
A small diameter tube having a small diameter tube (100b) provided with the guide protrusion member (110) and the guide groove forming member (120);
A drilling step of forming a drilling hole 1 by excavation;
Inserting the small-diameter tube (100b) for inserting the small-diameter tube (100b) into the drilling hole (1);
The large-diameter tubular body 100a is formed by using the large-diameter tubular body 100a to form a drilled hole 1 adjacent to the drilled hole 1, by the guide groove forming member 120 of the small-diameter tubular body 100b. While excavating the ground by the drilling equipment through the inner region of the large-diameter tube 100a while guiding the protruding member 110 of the guide, and excavating the ground by the left and right swing of the large-diameter tube 100a Adjacent drilling step of forming the drilling hole (1);
A large diameter tube leaving step of separating the large diameter tube (100a) from the adjacent hole (1);
Repeating the small-diameter tube 100b inserting step, the adjacent drilling step, and the large-diameter tube leaving step to form the drilling hole 1 continuously;
Drilling method comprising a.

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