KR101079188B1 - The Method for Construction Walls of Underground Structure - Google Patents

Abstract

The present invention relates to a wall construction method of an underground structure, and more particularly, to construct a wall structure of an underground structure for easy construction of the integrated wall of the underground structure regardless of the soil quality of the underground to be constructed with a low construction cost and a short construction period It is about public law.

In the wall construction method of the underground structure according to the present invention, the wall pillar 20 consisting of a pair of support pillars 10 which are constructed to be opposed to each other, the ground of a plurality of points at a position to be constructed the walls of the underground structure at a predetermined interval The first step of construction; A wall press-fitting device 30 is installed on the upper surface of the pair of wall pillars 20 spaced apart from each other at a predetermined interval with a space to which the wall of the underground structure is press-fitted, and the wall of the underground structure is mounted on the ground. A second step of forming a wall structure block 40 to be constructed; After placing the formed wall structure block 40 in a space in which the pair of wall pillars 20 are spaced apart from each other at a predetermined interval, the wall press-fitting apparatus 30 is provided in the pair of wall pillars 20, respectively. Coupling to the third step; And a fourth step of operating the wall press-fitting device 30 to press the wall structure block 40 into the ground to a predetermined depth.

 Underground Structure, Wall, Press-In Construction, Wall Structure Block

Description

{The Method for Construction Walls of Underground Structure}

The present invention relates to a wall construction method of an underground structure, and more particularly, to construct a wall structure of an underground structure for easy construction of the integrated wall of the underground structure regardless of the soil quality of the underground to be constructed with a low construction cost and a short construction period It is about public law.

In general, in order to build underground structures, excavation of earth and sand is provided after construction of temporary facilities at the construction site, and then a wall is installed to prevent soil collapse using a plurality of H-beams and earthen boards. The so-called temporary earthquake construction, which builds the basement walls, is the mainstream.

However, when the underground structure is constructed by the temporary construction method as described above, when the underground excavation work is difficult due to excessive groundwater inflow, the earthquake-proof structure is constructed using the H-beam and the order grouting earth plate, and then the excavation work is carried out. There is a difficulty in constructing the underground structure, and accordingly, there is a problem in that the number of processes for construction increases and the construction period is extended.

In addition, there is a possibility of long-term stratum deformation due to impossibility of perfect backfilling of H-shaped steel drawing space and earth plate installation and earth plate disassembly, resulting in surrounding hazards, and the closure of ground subsidence after completion Occurred.

Accordingly, as shown in FIG. 1, the present inventors disclosed a wall construction method of an underground structure in Korean Patent Registration No. 10-0781810. However, such a method has a disadvantage in that a large number of materials having a complex shape and then used to construct the construction, the material cost is high and the construction period is extended.

Conventionally, the temporary wall construction method of constructing basement walls by installing formwork and installing concrete after installing walls to prevent soil collapse using a number of H-beams and earth plate has problems of long-term structural deformation due to settlement of surrounding ground. ,

In addition, the wall construction method of the existing underground structure has difficulty in procuring materials because it has to produce a panel having a complicated shape, and it requires a large number of panels, resulting in high manufacturing costs and an increase in the construction period from material production to construction. have.

According to one method of the present invention, a wall pillar 20 including a pair of support pillars 10 which are constructed to be opposed to each other is constructed in a ground of a plurality of points at a position where a wall of an underground structure is to be constructed at predetermined intervals. step; A wall press-fitting device 30 is installed on the upper surface of the pair of wall pillars 20 spaced apart from each other at a predetermined interval with a space to which the wall of the underground structure is press-fitted, and the wall of the underground structure is mounted on the ground. A second step of forming a wall structure block 40 to be constructed; After placing the formed wall structure block 40 in a space in which the pair of wall pillars 20 are spaced apart from each other at a predetermined interval, the wall press-fitting apparatus 30 is provided in the pair of wall pillars 20, respectively. Coupling to the third step; And a fourth step of operating the wall press-fitting device 30 to press the wall structure block 40 into the ground to a predetermined depth.

In the wall construction method of the underground structure according to one embodiment of the present invention, in the first step, after boring and excavating the ground at a position where the support pillar 10 is to be constructed, the casing pipe 11 is press-fitted and the casing pipe is pressed. (11) installing a plurality of small-diameter pipes and partition panels, placing reinforcing bars 14 into concrete, and drawing the casing pipes and partition panels in the ground before the concrete is completely dried; Boring excavation of the ground of the lower end of the small diameter pipe, and inserting the earth anchor 15, then pouring into concrete; can be made.

Preferably, the boring operation for excavating the ground in the first step, the guide rail 50 is installed along the line of the wall to be constructed, the large diameter boring guide hole 51 and the small diameter boring guide hole 52 The boring guide plate 53 is formed through each of the guide rail 50 to be moved so that the front and rear boring guide hole 51 and the small diameter boring guide hole 52 to guide the auger By digging with screws 60, 60 ',

In addition, in the second step, the wall press-fitting device 30 is supported by being coupled to the earth anchor 15 provided in the support pillar 10, and perpendicular to the upper surface of the support pillar 10. It is installed to be moved up and down on the conveying guide rail 32 and the conveying guide rail 32 is formed, is coupled to the upper surface of the wall structure block 40, the press-in press to press the wall structure block 40 in the ground It is formed to be composed of the jack 33, the wall structure block 40, the left and right sides of the upper surface to form a traction ring 41 coupled with the press-fit jack 33 of the pair of the wall indentation device 30 And, the lower end may be formed to be provided with a press-in blade 42.

More preferably, in the second step, the wall structure block 40 may be formed by further comprising a plurality of screw guide holes 43 provided at predetermined intervals along the upper surface to penetrate in the longitudinal direction. ,

In addition, in the second step, the wall structure block 40 may be formed by further including a soil inflow prevention panel 44 in the longitudinal direction at the left and right ends of the front and rear.

The wall construction method of the underground structure according to the present invention, because the construction of the walls of the structure without excavating the earth and sand of the underground structure space can not only prevent the ground floor deformation or settlement,

The integrated wall can be constructed regardless of the soil quality of the underground structure, and the construction period can be shortened due to the simple construction of the wall, and the city park price can be saved by inputting a small amount of construction materials. .

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is a perspective view showing a wall construction method of a conventional underground structure, Figures 2a and 2b is a perspective view showing the casing pipe 11 and the inside of the casing pipe pressed into the ground for the construction of the support pillar 10 according to the present invention. 3A and 3B are perspective views illustrating a support column 10 constructed in the ground according to the present invention.

In addition, Figure 4 is a perspective view showing that the earth anchor 15 is formed in the support pillar 10 constructed in the support according to the present invention, Figure 5 is a boring guide device moving on the guide rail 50 according to the present invention Figure 6 is a perspective view, Figure 6 is a perspective view showing that the wall indentation device 30 is installed on the upper surface of the pair of wall pillar 20 according to the present invention, Figure 7 is a wall structure block 40 according to the present invention It is a perspective view showing.

In addition, Figure 8 is a perspective view showing that the wall structure block 40 is coupled to the wall indentation apparatus 30 according to the present invention, Figure 9 is a wall structure block 40 according to the present invention is a pair of wall pillar It is a plan view that is pressed between the 20, the soil inflow prevention panel 44 is coupled to the wall pillar 20, Figure 10 is a pair of one end of the wall structure block 40 according to the present invention It is a plan view that is sandwiched between the support pillars 10 and poured into concrete, Figure 11 is a perspective view showing the wall pillar 20 and the wall of the underground structure completed through the wall construction method of the underground structure according to the present invention.

In the wall construction method of the underground structure of the present invention, as shown in Figs. 2a to 2b, a pair of support pillars (10) to be opposed to each other at a plurality of points on the position to continuously construct the wall of the underground structure in the first step (10) Install the wall pillar (20) consisting of.

Installation of the wall pillar 20, first, boring excavation of the ground at the position to the support pillar 10, and then press the casing pipe 11, a plurality of small-diameter pipe (in the casing pipe 11) 12) and the partition panel 13 are installed, the reinforcing bars 14 are placed to cast concrete, and the casing pipe 11 and the partition panel 13 are drawn out in the ground before the concrete is completely dried. After the casing pipe 11 and the partition panel 13 are drawn out, a screw auger is introduced along the small diameter pipe 12 installed in the support pillar 10 to lower the small diameter pipe 12. The ground is bored and excavated, and the earth anchor 15 is inserted and placed in large concrete. The upper side of the plurality of earth anchors 15 protruding from the upper surface of the support pillar 10 is combined with the lower end of the wall indentation device 30 to serve as a foundation for supporting the wall indentation device 30. Will be

Preferably, the boring operation for drilling the ground in the first step, as shown in Figure 5, to install the guide rail 50 along the line of the wall to be constructed, the large diameter boring guide hole 51 and The boring guide plate 53 formed by penetrating the small-diameter boring guide hole 52 is installed on the guide rail 50 so as to be movable before and after the guide. And excavating the lower end portion with the small-diameter auger screws 60 and 60 'while being guided by the small-diameter boring guide hole 52, the support column 10 and the earth anchor precisely in a desired position. 15) can be installed underground.

In the second step, after the first step of forming the column pillar 20 formed by the pair of the support pillars 10 opposed to each other in the ground of a plurality of locations along the line of the wall to be constructed, As shown in FIG. 8, the upper surfaces of the pair of wall pillars 20 spaced apart from each other at predetermined intervals with a space to which the walls of the underground structure are press-fitted therebetween, that is, two support columns positioned to face each other. The wall press-fitting device 30 is installed on the upper surface of the 10, and on the ground, the wall structure block 40 to form the wall of the underground structure is formed.

After installing the wall press-fitting device 30 in the wall pillar 20 and constructing the wall structure block 40 in the second step, in the third step, the pair of wall pillars 20 are spaced a predetermined distance from each other. Position the formed wall structure block 40 in a space spaced from each other and then coupled to the wall indentation device (30).

After the wall structure block 40 is coupled to the wall press-fitting device 30, the wall press-fitting device 30 is operated to perform the fourth step of press-fitting the wall-structure block 40 to the ground. Underground structures can be built in the ground.

In more detail, the underground press-fit method of the wall structure block 40, the wall press-fit device 30, as shown in Figs. 6 and 8, the upper surface of the pair of support pillars 10 The conveying guide rail 32, which is formed of a steel beam having a cross-sectional shape of H, is vertically positioned, and a coupling flange 31 is provided at the lowermost end of the left and right rails of the conveying guide rail 32, so that the pair of Coupled with a plurality of earth anchors 15 formed on the upper surface of the support pillar 10, the earth anchor 15 is the transfer guide rail 32 is located perpendicular to the upper surface of the pair of support pillars 10 Will be firmly supported.

A press-fit jack 33 is provided to vertically move the transfer guide rail 32 vertically coupled to the wall pillar 20, and the press-fit jack 33 is formed on the upper surface of the wall structure block 40. It is coupled to one side of the left and right sides, the traction ring 41 is formed on the left and right sides of the upper surface of the wall structure block 40 to be coupled to the press-fit jack 33 of the pair of wall indentation device 30, the The press jack 33 coupled to each of the pair of tow rings 41 moves downward along the transfer guide rail 32 to press the wall structure block 40 into the ground to construct walls of the underground structure in the ground. Done. At the lower end of the wall structure block 40, as shown in FIG. 7, a press-fitting blade 42 is provided to cut the ground during press-fitting action of the press-fit jack 33 to press-fit the wall more easily. The structure block 40 can be press-fitted construction in the ground. At this time, both end portions of the wall structure block 40 is inserted into the spaced space between the pair of support pillars 10 formed to face each other with a predetermined interval spaced and press-fitted under the guidance of the pair of support pillars 10 It can be pressed into the ground while maintaining the airtightness and the pair of support pillars (10). After the wall structure block 40 is press-fitted between the pair of support pillars 10 installed in the ground spaced at a predetermined interval from each other, the side ends of the pair of support pillars 10 and the wall structure block 40 The space enclosed by the concrete will be firmly coupled to the wall pillar 20 and the wall structure block 40.

Preferably, at both ends of the front and rear surfaces of the wall structure block 40, as shown in Figure 7, the soil inflow prevention panel 44 in the vertical longitudinal direction to form the wall structure block 40 To improve the airtightness with the pair of support pillars 10 is inserted into the side end of the to prevent the soil from entering the one side of the wall surface.

In addition, a plurality of screw guide holes 43 are formed on the upper surface of the wall structure block 40 along the upper surface at predetermined intervals so that the wall structure block 40 is operated by the press-fit jack 33. ) By press-fitting the wall structure block 40 with the press jack 33 while stirring the ground with the auger screw through the screw guide hole 43. It is possible to construct walls of underground structures even in difficult rock layers.

Although some embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof.

Accordingly, the above-described embodiments should be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are included within the scope of the present invention.

1 is a perspective view showing a wall construction method of a conventional underground structure;

2A and 2B are perspective views showing the casing pipe 11 and the inside thereof press-fitted into the ground for the construction of the support pillar 10 according to the present invention;

Figure 3a and Figure 3b is a perspective view showing a support column 10 constructed in the ground according to the present invention;

4 is a perspective view showing that the earth anchor 15 is formed on the support pillar 10 according to the present invention;

5 is a perspective view showing a boring guide device moving on the guide rail 50 according to the present invention;

6 is a perspective view showing that the wall press-fitting device 30 is installed on the upper surface of the pair of wall pillars 20 according to the present invention;

7 is a perspective view showing a wall structure block 40 according to the present invention;

8 is a perspective view showing that the wall structure block 40 is coupled to the wall indentation apparatus 30 according to the present invention;

9 is a plan view showing that the wall structure block 40 according to the present invention is press-fitted between a pair of wall pillars 20, and the soil inflow prevention panel 44 is coupled to the wall pillars 20;

10 is a plan view showing that one side end of the wall structure block 40 according to the present invention is sandwiched between a pair of support pillars 10 and poured into concrete;

11 is a perspective view showing the wall pillar 20 and the wall of the underground structure completed through the wall construction method of the underground structure according to the present invention.

Explanation of symbols on the main parts of the drawings

10: support pillar 11: casing pipe

12: small diameter pipe 13: partition panel

14: rebar 15: earth anchor

20: wall pillar 30: wall indentation device

31: coupling flange 32: transfer guide rail

33: press-fit jack

40: wall structure block 41: tow hook

42: press-in blade 43: screw guide hole

44: soil inflow prevention panel

50: guide rail 51: large diameter boring guide

52: small diameter boring guide 53: boring information board

60, 60 ': Auger screw

Claims (6)

A first step of constructing a wall pillar (20) including a pair of support pillars (10) constructed to face each other, at a plurality of points in the ground at a position where a wall of an underground structure is to be constructed at predetermined intervals; A wall press-fitting device 30 is installed on the upper surface of the pair of wall pillars 20 spaced apart from each other at a predetermined interval with a space to which the wall of the underground structure is press-fitted, and the wall of the underground structure is mounted on the ground. A second step of forming a wall structure block 40 to be constructed; After placing the formed wall structure block 40 in a space in which the pair of wall pillars 20 are spaced apart from each other at a predetermined interval, the wall press-fitting apparatus 30 is provided in the pair of wall pillars 20, respectively. Coupling to the third step; And And a fourth step of operating the wall press-fitting device (30) to press-fit the wall structure block (40) to the ground to a predetermined depth. The method of claim 1, The first step, After boring and excavating the ground at the position where the support pillar 10 is to be constructed, the casing pipe 11 is press-fitted, and a plurality of small-diameter pipes 12 and partition panels 13 are installed in the casing pipe 11. Reinforcing the reinforcing bars 14 and placing them in concrete, and drawing the casing pipe and the partition panel 13 in the ground before the concrete is completely dried; Boring excavation of the ground at the bottom of the small diameter pipe (12), and inserting the earth anchor (15) and pouring into concrete; wall construction method of the underground structure comprising a. 3. The method of claim 2, Boring work for digging the ground in the first step, The guide rail 50 is installed along the line of the wall to be constructed, and the guide rail 50 includes a boring guide plate 53 formed through the large diameter boring guide hole 51 and the small diameter boring guide hole 52, respectively. Underground structure, characterized in that the excavation with the auger screw (60, 60 ') under the guidance of the large diameter boring guide hole (51) and small diameter boring guide hole (52) by installing so as to be movable before and after. Wall construction method. 3. The method of claim 2, In the second step, The wall indentation device 30, A transport guide rail 32 coupled to and supported by the earth anchor 15 provided in the support pillar 10 and formed perpendicularly to an upper surface of the support pillar 10; It is installed to be movable up and down on the conveyance guide rail 32, is coupled to the upper surface of the wall structure block 40, the press-in jack 33 for pressing the wall structure block 40 in the ground; and, The wall structure block 40, On the left and right sides of the upper surface is formed a traction ring 41 is coupled to the pair of the press-fit jack 33 of the wall press-fitting device 30, the basement, characterized in that formed in the lower end is provided with a press-in blade 42 Wall construction method of structure. The method of claim 4, wherein In the second step, The wall structure block 40, Wall construction method of the underground structure, characterized in that it further comprises a plurality of screw guide holes (43) provided at a predetermined interval along the upper surface to penetrate in the longitudinal direction. The method of claim 5, In the second step, The wall structure block 40, Wall construction method of the underground structure characterized in that it further comprises a soil inflow prevention panel 44 in the longitudinal direction at the left and right ends of the front and rear.

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