KR20140010277A - Semicircular sheet pile and construction method for wall structure of underground using the same - Google Patents

Abstract

The present invention provides a semicircular sheet pile (100) and a construction method for a wall structure using the same. the semicircular sheet pile includes a main body (110) of which a cross section has a semicircular structure and a connection unit (120) which is bent so that both ends of the main body (110) are interlocked and connected with a connection unit (120a) of a closely located main body (110a). The present invention includes large resistibility on soil pressure and water pressure by improving the rigidity and is structurally stable. The present invention also can be installed in a deep area or a rock area.

Description

Semicircular sheet pile and construction method of wall structure using same {SEMICIRCULAR SHEET PILE AND CONSTRUCTION METHOD FOR WALL STRUCTURE OF UNDERGROUND USING THE SAME}

The present invention relates to the field of civil engineering, and more particularly, to a semicircular sheet pile and a method of constructing a wall structure using the same.

In general, when the construction of underground structures, in order to prevent the soil from flowing down or the ground collapses, a plurality of sheet piles are introduced into the ground to form an earth wall structure.

However, the conventional construction method of the wall structure has the following problems.

Sheet pile 10 used in the conventional construction of the wall structure is very weak to earth pressure and water pressure.

Therefore, after the penetration step and the installation step of injecting the sheet pile 10 into the ground, there is a fear that the durability and structural stability of the wall structure due to the earth pressure and the water pressure decreases.

When the depth of the arm section and the hole is deep, not only the workability is lowered, but also there is a problem that it is difficult to secure the structural stability of the installed wall structure.

The present invention is derived to solve the above problems, the stiffness is increased, the resistance to earth pressure and water pressure is large, structurally stable, semi-circular sheet pile that can be installed in a dark section and a deep section and the same It is an object of the present invention to provide a method of constructing a used wall structure.

In order to solve the above problems, the present invention has a semi-circular cross-section main body 110; Semi-circular sheet pile 100, characterized in that it comprises a; coupling portion 120 is bent to engage with each other and the coupling portion (120a) of the main body (110a) is installed adjacent to both ends of the main body 110; To present.

The main body 110 may further include a protruding flat portion 111 formed at the center of the outer surface of the main body 110.

The main body 110 further includes a recessed flat portion 112 formed at the center of the outer surface of the main body 110.

It is preferable that the main body 110 has an increased cross section from both sides of the main body 110 toward the recessed flat portion 112.

The main body 110 is preferably formed in a cross-sectional structure of a semicircular inner surface and a polygonal outer surface.

The main body 110 is preferably formed in a cross-sectional structure of a semicircular inner surface and half of an octagonal outer surface.

It is preferable to further include; a lower portion of the main body 110, the reinforcement portion 130 is formed in a cross section having a larger thickness than the main body 110.

Preferably, the reinforcement part 130 includes an expansion member 131 coupled to the lower end of the main body 110.

The reinforcement part 130 preferably includes an additional member 132 padded on the lower outer side of the main body 110.

It is preferable that a plurality of protrusions 140 are formed on the outer side or the bottom of the main body 110 along the up and down direction outside the main body 110.

The protrusion 140 is preferably a straight structure.

The protrusion 140 is preferably of the attached structure.

A construction method of a wall structure using the semi-circular sheet pile 100 of the present invention, the underground excavation step of forming an excavation groove by excavating the ground to penetrate the semi-circular sheet pile (100); Semi-circular sheet pile penetration step of injecting the plurality of semi-circular sheet pile 100 into the excavation groove; A semi-circular sheet pile joining step of joining the semi-circular sheet pile (100a) installed adjacent to the semi-circular sheet pile (100) by the plurality of coupling parts (120,120a); It is preferable to include a; wall structure forming step of forming a wall structure 600 by pouring concrete in the plurality of excavation grooves.

In the semi-circular sheet pile penetration step, the semi-circular sheet pile 100a installed adjacent to the semi-circular sheet pile 100 may be inserted in such a manner that the semi-circular sheet pile 100a is located at one side with respect to the city center 1.

In the semi-circular sheet pile penetration step, it is preferable that the semi-circular sheet pile 100a installed adjacent to the semi-circular sheet pile 100 is inserted so as to be alternately positioned at both sides with respect to the city center 1.

Between the underground excavation step and the semi-circular sheet pile penetration step, the circular steel pipe penetration step of injecting the circular steel pipe 500, the steel pipe coupling portion 510 is formed on both sides in the ground; further comprising, the circular steel pipe 500 The semi-circular sheet pile 100 is introduced into the guide, and the circular steel pipe 500 and the semi-circular sheet pile 100 are coupled to each other by the steel pipe coupling portion 510 and the coupling portion 120. desirable.

In the circular steel pipe penetration step, the circular steel pipe 500 may be penetrated deeper into the ground than the semi-circular sheet pile 100.

As a construction method of the wall structure using the semi-circular sheet pile 100 of the present invention, the semi-circular sheet pile 100 and the drilling apparatus 300 including an auger 200 installed inside the semi-circular sheet pile 100 Drilling hole formation step of excavating the ground to form a drilling hole; An auger 200 detachment step of leaving the auger 200 in a state in which the semi-circular sheet pile 100 is inserted into the drilling hole; Guided by the coupling portion 120 of the semi-circular sheet pile 100, adjacent to the perforated device including a semi-circular sheet pile (100a) and adjacent augers installed inside the semi-circular sheet pile (100a) Adjacent drilling holes forming an excavated ground to form adjacent drilling holes; It is preferable to include a; wall structure forming step of forming a wall structure 600 by pouring concrete in the plurality of drilling holes.

In the drilling hole forming step, the drilling device 300 is the semi-circular sheet pile (100); An auger 200 installed inside the semi-circular sheet pile 100; It is preferable to include; a fixing member 400 for holding the top of the semi-circular sheet pile (100).

The present invention provides a semicircular sheet pile and a method of constructing a wall structure using the same, which have increased rigidity, have high resistance to earth pressure and hydraulic pressure, are structurally stable, and can be installed in a dark section and a deep section.

1 is an installation plan view of a conventional sheet pile.
2 to 11 show an embodiment of a semi-circular sheet pile according to the present invention,
2 is a perspective view of a first embodiment of a semi-circular sheet pile;
3 is a plan view of a first embodiment of the installation of a semi-circular sheet pile;
4 is a plan view of a first embodiment of a body;
5 is a plan view of a second embodiment of a body;
6 is a plan view of a third embodiment of a body;
7 is a perspective view of a first embodiment of the reinforcing portion;
8 is a perspective view of a second embodiment of the reinforcement unit;
9 is a perspective view of a second embodiment of a semi-circular sheet pile;
10 is a perspective view of a third embodiment of a semi-circular sheet pile;
11 is a perspective view of a fourth embodiment of a semi-circular sheet pile;
12 is a plan view of a second embodiment of the installation of a semi-circular sheet pile;
13 to 17 are for explaining the construction method of the wall structure using a semi-circular sheet pile,
13 is a cross-sectional view of the first embodiment of the construction method of the wall structure.
14 is a sectional view of a second embodiment of a construction method of a wall structure;
15 is a sectional view of a third embodiment of a construction method of a wall structure;
16 is a cross-sectional view of the installation of the drilling device.
17 is a sectional view of a fourth embodiment of a construction method of a wall structure;

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

As shown in Figure 2, the semi-circular sheet pile 100 proposed in the present invention includes a main body 110 having a semi-circular cross-section structure; Both ends of the main body 110 is bent to engage with the coupling portion 120a of the main body 110a which is installed adjacent to each other; is formed to be coupled to (120, Fig. 2, 3) .

The conventional sheet pile 10 has a straight cross-section of the main body, and the workability is degraded by earth pressure and water pressure at the stage of injecting the sheet pile 10 into the ground, or even after penetration into the ground, the sheet pile has a sheet pile. There was a problem that the structural stability of (10) is lowered (Fig. 1).

On the other hand, the semi-circular sheet pile 100 proposed in the present invention is a semi-circular cross-section of the main body 110, the cross-sectional area is almost similar to the conventional sheet pile 10, but has a rigidity of about 3.5 times higher.

Therefore, the semicircular sheet pile 100 resists the earth pressure and the hydraulic pressure during the step of intruding into the ground and the period used to penetrate the ground, thereby increasing the structural stability of the wall structure using the semicircular sheet pile 100.

In order to maximize the effect, the following structure can be implemented.

First, the flat portion 111, 112 is formed in the center of the outer surface of the main body 110 (Figs. 4, 5).

Here, the flat portions 111 and 112 serve to increase the cross-sectional secondary moment of the main body 110.

Through this, an effect of increasing the durability and structural stability of the wall structure using the semi-circular sheet pile 100 is obtained.

In addition, the plurality of semi-circular sheet pile 100 has an advantage that can be easily coupled to the strip (2) through the flat portion (111, 112) to obtain a stable coupling structure.

The structures of the flat portions 111 and 112 may be specifically implemented as the protruding flat portion 111 and the recessed flat portion 112.

Here, the main body 110 in which the recessed flat portion 112 is formed is characterized in that the cross section increases from both sides of the main body 110 toward the recessed flat portion 112.

That is, among the cross sections of the main body 110, the thickness of the cross section located farthest from the neutral axis of the main body 110 is the thickest structure.

This structure is preferable because it can maximize the cross-sectional secondary moment increase effect of the main body 110.

In addition, the central cross section of the outer surface of the main body 110 is reduced due to the recessed flat portion 112, which is effective in that the rigidity of the semi-circular sheet pile 100 can be compensated for.

Second, the cross-sectional structure of the main body 110 has a semicircular inner surface and a polygonal outer surface.

In the case where the outer surface of the main body 110 is formed in a polygon, the cross section secondary moment is greatly increased, thereby obtaining the effect of maximizing durability and structural stability of the wall structure using the semi-circular sheet pile 100.

Here, the outer surface of the main body 110 is a polygon, while the inner surface is formed in a semi-circular structure is as follows.

Semi-circular sheet pile 100 according to the present invention can be used by the following construction method.

Excavating the ground by the drilling device 300 including the semi-circular sheet pile 100 and the auger 200 installed inside the semi-circular sheet pile 100 and at the same time penetrates the semi-circular sheet pile 100.

Therefore, for this construction, the inner surface of the main body 110 may have a semi-circular structure, and may be referred to as a structure in which the auger 200 is easily installed inside the main body 110.

The inner surface of the main body 110 is semi-circular, and the outer surface is formed in a polygon, specifically, the outer surface of the main body 110 may be implemented as a cross-sectional structure of half the octagon (FIG. 6).

Such a structure can be said to have the largest cross-sectional secondary moment.

In addition, in the coupling structure in which a plurality of semi-circular sheet piles 100 are coupled to the band 2, an area corresponding to the octagonal surface of the main body 110 comes into contact with the band 2, and is stable. There is an advantage that a coupling structure that can be easily constructed can be obtained.

The semi-circular sheet pile 100 is structurally more stable through the structure to reinforce the lower portion of the main body 110, it is possible to obtain the effect of increasing the durability.

That is, the semi-circular sheet pile 100 is a lower portion of the main body 110, the reinforcement portion 130 is formed in a cross section having a larger thickness than the main body 110; by installing, it is possible to obtain a more stable structural effect and increase the durability .

In addition, by providing the reinforcement portion 130, it is also possible to obtain an effect of preventing the tip portion of the semi-circular sheet pile 100 from being deformed during the driving operation by vibro hammer.

The reinforcement part 130 may be installed in the following structure in detail below the main body 110.

First, the expansion member 131 at the lower end of the main body 110; is a structure for coupling (Fig. 7).

In this case, it is preferable that the expansion member 131 is coupled to the lower end of the main body 110 by welding.

When the expansion member 131 is installed, not only the bottom portion of the main body 110 is greatly strengthened in thickness, but also the length of the main body 110 can be further extended to the lower side.

Second, the padding member 132 on the lower outer side of the main body 110; the padding structure (Fig. 8).

Here, the attachment member 132 is preferably welded or bolted to the lower outer side of the main body 110.

At the same time to further maximize the function of the reinforcement portion 130, when the semi-circular sheet pile 100 is inserted into the ground, a plurality of the whole or lower outer surface of the main body 110 to facilitate the drilling and embedding Protrusions 140 may be installed.

Here, the protrusion 140 is formed along the vertical direction on the outside of the main body 110.

First, in the case of a structure in which a plurality of protrusions 140 are formed on the entire outer surface of the body 110, the plurality of protrusions 140 serve as reinforcing ribs of the body 110 (FIG. 11).

Therefore, when the penetration work in the arm section or the depth section, the effect of securing the structural stability of the semi-circular sheet pile 100.

In addition, if the protrusion 140 is formed on the outer side of the reinforcement 130 described above, the effect of the reinforcement 130 and the effect of the protrusion 140 can be obtained together, which is preferable in terms of workability and structural aspects (FIG. 7). 8).

Specifically, the protrusion 140 is preferably formed in a straight structure in terms of construction (Fig. 7).

In particular, the structure in which the protrusion 140 is formed as an attachment type may be referred to as a structure that is most effectively perforated when the semicircular sheet pile 100 is inserted into the ground (FIG. 8).

Therefore, this structure is effective in terms of workability.

The present invention proposes a construction method of the wall structure using the semi-circular sheet pile 100 as follows.

First, in order to penetrate the semi-circular sheet pile 100 into the ground, the ground is excavated to form an excavation groove.

Penetrate the semi-circular sheet pile 100 into the excavation groove.

The semi-circular sheet pile 100a installed adjacent to the semi-circular sheet pile 100 is joined by a plurality of coupling parts 120 and 120a (FIG. 12).

The semicircular sheet pile penetration step and the semicircular sheet pile coupling step are repeated to install a plurality of semi-circular sheet pile 100 to be coupled to each other, and the concrete is poured into a plurality of excavation groove to form a wall structure 600.

Conventionally, when the depth is deep, or when the wall structure is formed in the arm section, it is difficult to penetrate the sheet pile, the construction cost is high, and there is a problem that it is difficult to secure the structural stability.

On the other hand, since the semi-circular sheet pile 100 according to the present invention has a large rigidity and a certain degree of orderability, the semi-circular sheet pile 100 is deeply penetrated into the ground even in a dark section or a deep section to secure aberration and structural stability. In addition, the rigidity of the wall structure 600 can be largely maintained (FIG. 13).

As shown in FIG. 14, there is also a method of constructing the wall structure 600 by injecting some of the semi-circular sheet piles 100 deeply into the arm section.

Similarly, this construction method is an advantageous construction method when it is used in the case of deep depth or in a dark section.

Here, the plurality of semi-circular sheet pile 100 is used as a filler by infiltrating up to the required excavation depth is required, while the semi-circular sheet pile 100 penetrating deeper into the arm section also serves as a stress material, wall structure ( The effect of maintaining the rigidity of 600) can be obtained.

In the case where the arm section or the deep section, or when the rigidity of the wall structure 600 is greatly required, the following construction method may be used.

In the above-described construction method of the wall structure, between the underground excavation step and the semi-circular sheet pile penetration step, further comprising the step of injecting the circular steel pipe 500, the steel pipe coupling portion 510 is formed on both sides in the ground (Fig. 15).

Then, the semi-circular sheet pile 100 is introduced into the circular steel pipe 500 as a guide.

Here, the circular steel pipe 500 and the semi-circular sheet pile 100 is coupled to each other by the steel pipe coupling portion 510 and the coupling portion 120.

As such, the structure of further penetrating the circular steel pipe 600 into the ground obtains the following effects.

When the depth of the excavation groove is deep, the penetration depth is deeper than that of the semi-circular sheet pile 100, and the penetration of the circular steel pipe 600 having a more stable cross-sectional structure results in an effect of increasing the structural stability of the wall structure.

In addition, in the past, when the wall structure is formed in the arm section, the installation of the sheet pile is difficult or the accuracy of the construction quality, but in the present invention, the circular steel pipe 600 is infiltrated between the sections where the arm is located, structurally stable And the construction is easy to obtain the effect.

Here, the circular steel pipe 500 is preferably penetrated deeper into the ground than the semi-circular sheet pile 100 in order to maximize the function.

In the semi-circular sheet pile penetration step, the structure in which the plurality of semi-circular sheet pile 100 is inserted is presented in detail as follows.

First, the semi-circular sheet pile 100a installed adjacent to the semi-circular sheet pile 100 is inserted in such a manner that the semi-circular sheet pile 100a is located at one side with respect to the city center 1 (FIG. 12).

Such a structure has the effect of easy construction.

In addition, it is also a very advantageous structure to form a wall structure by combining a plurality of semi-circular sheet pile (100).

Second, the semicircular sheet pile 100a installed adjacent to the semicircular sheet pile 100 is inserted in such a manner that the semicircular sheet pile 100a is alternately positioned on both sides of the city center 1 (FIG. 3).

Such a structure obtains an effect that the semi-circular sheet pile 100 is structurally very stable because it resists earth pressure and water pressure on both sides of the city center 1.

As described above, the semi-circular sheet pile 100 excavates the ground by the drilling device 300 including a semi-circular sheet pile 100 and the auger 200 installed inside the semi-circular sheet pile 100 and at the same time semi-circular sheet pile It can be used by the construction method of penetrating (100) (Fig. 16, 17).

Here, the drilling device 300 includes a fixing member 400 occupying the upper end of the semi-circular sheet pile 100 so that the semi-circular sheet pile 100 does not rotate together with the auger 200.

Such a construction method can facilitate the operation of injecting the semi-circular sheet pile 100 into the arm section or the section having a deep excavation depth.

This will be described in detail as follows.

First, the ground is excavated by a drilling device 300 including a semi-circular sheet pile 100 and an auger 200 installed inside the semi-circular sheet pile 100 to form a drilling hole.

Next, the auger 200 is separated from the semi-circular sheet pile 100 inserted into the drilling hole.

Guided by the engaging portion 120 of the semi-circular sheet pile 100, the ground is excavated by an adjacent drilling apparatus including an adjacent semi-circular sheet pile and an adjacent auger provided inside the adjacent semi-circular sheet pile to form adjacent drilling holes. .

Concrete is poured into a plurality of drilling holes to form the wall structure 600.

That is, it is a construction method for installing the auger 200 inside the semi-circular sheet pile 100 proposed in the present invention to simultaneously drill the ground and penetrate the semi-circular sheet pile 100.

Through this, it is possible to shorten the construction period and reduce the construction cost.

Above all, the drilling operation and the penetration operation are performed at the same time, the semi-circular sheet pile 100 can effectively prevent the collapse of the earth and sand can secure the construction.

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: city center 2: strip
100: semi-circular sheet pile 110: main body
111: flat portion 120: coupling portion
130: reinforcement 131: expansion member
132: overlay member 140: protrusion
200: Auger 300: punching device
400: fixing member 500: round steel pipe
510: steel pipe joint 600: wall structure

Claims (19)

A main body 110 having a semicircular structure in cross section;
Coupling portion 120 is bent to engage with each other and the coupling portion 120a of the main body 110a is installed adjacent to both ends of the main body 110;
Semi-circular sheet pile 100, characterized in that it comprises a. The method of claim 1,
The main body 110
Protruding flat portion 111 formed in the center of the outer surface of the main body 110;
Semi-circular sheet pile 100, characterized in that it further comprises. The method of claim 1,
The main body 110
Recessed flat portion 112 formed in the center of the outer surface of the main body 110;
Semi-circular sheet pile 100, characterized in that it further comprises. The method of claim 3, wherein
The main body 110
Semicircular sheet pile (100), characterized in that the cross section is increased from both sides of the main body 110 toward the recessed flat portion (112). The method of claim 1,
The main body 110
Semi-circular sheet pile 100, characterized in that the inner surface is semi-circular, the outer surface is formed in a polygonal cross-sectional structure. 6. The method of claim 5,
The main body 110
Semi-circular sheet pile 100, characterized in that the inner surface is semi-circular, the outer surface is formed in a cross-sectional structure of half the octagon. The method of claim 1,
A reinforcement part 130 having a thickness greater than that of the main body 110 in the lower portion of the main body 110;
Semi-circular sheet pile 100, characterized in that it further comprises. 8. The method of claim 7,
The reinforcement unit 130
Semi-circular sheet pile (100) comprising a; expansion member (131) coupled to the lower end of the main body (110). 8. The method of claim 7,
The reinforcement unit 130
Padding member 132 is padded on the lower outer side of the main body 110;
Semi-circular sheet pile 100, characterized in that it comprises a. The method of claim 1,
Semicircular sheet pile (100), characterized in that formed on the whole or lower outer surface of the main body 110, a plurality of protrusions 140 in the up and down direction on the outside of the main body (110). The method of claim 10,
The protrusion 140 is
Semi-circular sheet pile 100, characterized in that the straight structure. 12. The method of claim 11,
The protrusion 140 is
Semi-circular sheet pile 100, characterized in that the attachment structure. As a construction method of a wall structure using the semi-circular sheet pile 100 according to any one of claims 1 to 12,
Underground excavation step of excavating the ground to form an excavation groove in order to penetrate the semi-circular sheet pile 100 into the ground;
Semi-circular sheet pile penetration step of injecting the plurality of semi-circular sheet pile 100 into the excavation groove;
A semi-circular sheet pile joining step of joining the semi-circular sheet pile (100a) installed adjacent to the semi-circular sheet pile (100) by the plurality of coupling parts (120,120a);
A wall structure forming step of forming a wall structure 600 by pouring concrete into the plurality of excavation grooves;
Construction method of a wall structure comprising a. The method of claim 13,
The semi-circular sheet pile penetration step
The semi-circular sheet pile (100a) installed adjacent to the semi-circular sheet pile 100, the construction method of the wall structure, characterized in that the penetration is located on one side with respect to the center (1). The method of claim 13,
The semi-circular sheet pile penetration step
The semicircular sheet pile (100a) is installed adjacent to the semi-circular sheet pile 100, the construction method of the wall structure, characterized in that the penetration so as to be located on both sides alternately with respect to the center (1). The method of claim 13,
Between the underground excavation step and the semi-circular sheet pile penetration step,
Further comprising: a circular steel pipe penetration step of injecting the circular steel pipe 500, the steel pipe coupling portion 510 is formed on both sides in the ground;
The semi-circular sheet pile 100 is introduced into the circular steel pipe 500 as a guide, and the circular steel pipe 500 and the semi-circular sheet pile 100 are connected to the steel pipe coupling part 510 and the coupling part 120. Construction method of a wall structure, characterized in that the mutual coupling by. 17. The method of claim 16,
The circular steel pipe penetration step
Construction method of the wall structure, characterized in that the circular steel pipe 500 is penetrated deeper into the ground than the semi-circular sheet pile (100). As a construction method of a wall structure using the semi-circular sheet pile 100 according to any one of claims 1 to 12,
A drilling hole forming step of drilling a ground by a drilling device 300 including the semi-circular sheet pile 100 and an auger 200 installed inside the semi-circular sheet pile 100 to form a drilling hole;
An auger detachment step of leaving the auger 200 in a state in which the semi-circular sheet pile 100 is inserted into the drilling hole;
Guided by the coupling portion 120 of the semi-circular sheet pile 100, adjacent to the semi-circular sheet pile (100a) and adjacent auger including an adjacent auger installed inside the semi-circular sheet pile (100a) Adjacent drilling holes forming an excavated ground to form adjacent drilling holes;
A wall structure forming step of forming a wall structure 600 by pouring concrete into the plurality of perforation holes;
Construction method of a wall structure comprising a. 19. The method of claim 18,
In the drilling hole forming step, the drilling device 300 is
The semi-circular sheet pile (100);
An auger 200 installed inside the semi-circular sheet pile 100;
Fixing member 400 for holding the top of the semi-circular sheet pile 100;
Construction method of a wall structure comprising a.

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