KR102355446B1 - Vertical underground structure and method for constructing the same - Google Patents

Abstract

The present invention relates to an underground vertical structure and a construction method thereof, and the present invention relates to an order wall including a plurality of columnar piles that are embedded in the ground in a polygonal or closed curve shape to support a soil wall; an inner concrete wall including a plurality of concrete panels arranged in a horizontal direction and a vertical direction on the order wall so as to be in contact with the order wall; a floor body constructed on the inner basement floor of the inner concrete wall; an outer concrete wall formed to a thickness set on the inner concrete wall; and a waterproofing layer provided between the inner concrete wall and the outer concrete wall. According to the present invention, the space is formed in the vertical direction by minimizing the installation space in the ground while firmly supporting the pressure of the earth wall, and the construction period is shortened while the construction is simple.

Description

Underground vertical structure and its construction method

The present invention relates to an underground vertical structure and a construction method thereof.

In general, underground vertical structures, such as underground storage tanks and vertical tunnels, installed underground, install piles in the ground and then excavate the ground to install earth plates and wales, and install earth anchors to the earth wall while repeating the process of installing the depth set The structure is constructed by excavating to the bottom, installing a form such as plywood or iron plate from the underground floor, and pouring concrete. However, such a construction method has disadvantages in that the construction is complicated and expensive because it is necessary to remove the form such as plywood or iron plate after constructing the underground vertical structure.

Republic of Korea Patent No. 10-1322089 (published on October 28, 2013) (hereinafter referred to as prior art) proposes a wall construction method in which a wale is installed on a retaining wall to support the wale and the PC wall with braces. However, in the prior art, the installation sequence of the PC wall is complicated, and the backfill construction is impossible because a wale is installed on the back side, so an empty space is generated in the basement. this can be Also, when installing a wale on a vertical pile, welding and bolting are performed, but there is no space to access the back side of the PC wall, so there is no way to dismantle and recover the temporary steel material. Therefore, there is a disadvantage in that economic efficiency is lowered.

An object of the present invention is to provide an underground vertical structure and a construction method thereof, which form a space in a vertical direction by minimizing the installation space in the ground while firmly supporting the pressure of the earth wall.

Another object of the present invention is to provide an underground vertical structure that is simple to construct and shortens the construction period, and a construction method thereof.

In order to achieve the object of the present invention as described above, the order wall comprising a plurality of column-type piles installed in the ground in the form of a polygonal or closed curve to support the earth wall; an inner concrete wall including a plurality of concrete panels arranged in a horizontal direction and a vertical direction on the order wall so as to be in contact with the order wall; a floor body constructed on the inner basement floor of the inner concrete wall; an outer concrete wall formed to a thickness set on the inner concrete wall; An underground vertical structure comprising a; waterproof layer provided between the inner concrete wall and the outer concrete wall is provided.

The concrete panel is supported on the order wall by a support means, and the support means includes a plurality of through holes in the concrete panel, and an anchor bolt or fixing pin inserted through the through hole of the concrete panel and inserted into the order wall. it is preferable

Preferably, the flooring includes a concrete cast layer placed on the basement floor, a waterproof layer provided on the upper surface of the cast concrete layer, and a foundation concrete layer placed on the upper surface of the waterproof layer.

In addition, the steps of constructing an order wall by installing column-type piles to form a polygonal or closed curve shape in the ground to construct the underground structure; The ground excavation area surrounded by the column-type piles is excavated to a unit depth, and the concrete panels are arranged to form a polygonal or closed curve in the horizontal direction along the column-type piles so as to be in contact with the exposed column-type piles excavated to the unit depth. a unit inner wall construction step of constructing a unit inner concrete wall by installing braces to support the arranged concrete panels; repeating the unit inner wall construction step to a set depth to construct an inner concrete wall in the form of a closed curve; pouring discarded concrete on the inner basement floor of the inner concrete wall; constructing a waterproofing layer on the inner concrete wall and the abandoned concrete; pouring the foundation concrete on the waterproof layer of the discarded concrete; dismantling the braces installed in the unit inner wall construction step adjacent to the upper side of the foundation concrete; installing a formwork on the inner concrete wall so as to pour a unit outer concrete wall following the inner concrete wall; constructing a unit outer concrete wall by pouring and curing concrete in the formwork; The steps of removing the braces installed in the unit inner wall construction step located directly above the unit outer concrete wall and repeating the unit outer wall construction step of constructing the unit outer concrete wall over the unit outer concrete wall to construct the outer concrete wall; A method of constructing an underground vertical structure comprising:

In the unit inner wall construction step, the method further comprises supporting the concrete panel on the order wall and then supporting the concrete panel on the order wall as a support means, wherein the support means includes a plurality of through holes provided in the concrete panel; It is preferable to include an anchor bolt or a fixing pin which is inserted through the through hole of the concrete panel and driven into the order wall.

The formwork preferably includes concrete panels for formwork arranged in a horizontal direction on the upper surface of the foundation concrete at a distance from the inner concrete wall, and a connection unit for connecting the concrete panels for the formwork to the inner concrete wall, respectively.

In the unit inner wall construction step, it is preferable to install a wale on the concrete panels arranged to form a closed curve along the column-type piles, and install beams on the wale.

In the underground vertical structure of the present invention, an order wall is installed in the ground in the form of a polygon or a closed curve to support the earth wall, and a plurality of concrete panels are arranged on the order wall in the horizontal and vertical directions so as to be in contact with the order wall to constitute the inner concrete wall and the inner concrete wall Since the floor is provided on the inner basement floor of the inner concrete wall and the outer concrete wall is provided with a thickness set on the inner concrete wall, the pressure of the earth wall is firmly supported and a space is formed in the vertical direction.

In addition, the underground vertical structure construction method of the present invention installs column-type piles to form a polygonal or closed curve shape, constructs an inner concrete wall having a set depth while repeating the unit inner wall construction step, and discards it on the inner basement floor of the inner concrete wall After pouring concrete, then constructing the waterproofing layer, and then pouring the foundation concrete, the outer concrete wall is constructed while repeating the unit outer wall construction step on the inner concrete wall. The construction of underground vertical structures is quick and robust.

In addition, since the underground vertical structure of the present invention supports the inner concrete wall without a support material such as a separate earth anchor for supporting the inner concrete wall, it occupies a small underground installation space, and the construction of the structure becomes free even if the buildings are adjacent to it.

In addition, since the present invention does not require backfilling of the backside of the structure after installation of the underground vertical structure is completed, the amount of excavated soil is small, and the economical efficiency is excellent. be able to recover

1 is a front sectional view showing an embodiment of an underground vertical structure according to the present invention;
2 is a plan view showing an embodiment of an underground vertical structure according to the present invention;
3 is a plan view showing another embodiment of the underground vertical structure according to the present invention;
Figure 4 is a cross-sectional view showing an example of the support means constituting an embodiment of the underground vertical structure according to the present invention,
5 is a cross-sectional view showing another example of the supporting means constituting an embodiment of the underground vertical structure according to the present invention;
Figure 6 is a flow chart showing an embodiment of the underground vertical structure construction method according to the present invention;
7a to 7g are side views each showing an embodiment of the underground vertical structure construction method according to the present invention in each construction stage.

Hereinafter, an embodiment of the underground vertical structure and its construction method according to the present invention will be described with reference to the accompanying drawings.

1 is a front cross-sectional view showing an embodiment of an underground vertical structure according to the present invention. Figure 2 is a plan view showing an embodiment of the underground vertical structure according to the present invention.

As shown in Figures 1 and 2, one embodiment of the underground vertical structure according to the present invention, the order wall 10, the inner concrete wall 20, the floor body 30, the outer concrete wall 40, the waterproofing layer ( 50).

The order wall 10 is installed in the ground in the form of a polygonal or closed curve to support the earth wall. The order wall 10 includes columnar piles 11 embedded in a vertical direction in the ground along a polygonal or closed curve. As an example, the column-type piles 11 are arranged in a rectangular shape when viewed from above to form the order wall 10 . As another example, as shown in FIG. 3 , the columnar piles 11 are arranged in a circular shape when viewed from above to form the order wall 10 . As another example, the column-type piles 11 are arranged in a polygonal shape such as a hexagon to form the order wall 10 , or are arranged in an oval shape to form the order wall 10 . Hereinafter, the columnar piles 11 will be described with respect to the order wall 10 arranged in a rectangular shape when viewed from above.

The inner concrete wall 20 includes a plurality of concrete panels 21 arranged in horizontal and vertical directions on the order wall 10 so as to be in contact with the order wall 10 having a polygonal or closed curve shape. That is, the inner concrete wall 20 has a length in the vertical direction, and the cross-sectional shape is formed in a polygonal or closed curved shape like an order wall and has a uniform thickness. That is, when the order wall 10 is a rectangle when viewed from above, the inner concrete wall 20 also becomes a rectangle when viewed from above. When the inner concrete wall 20 has a rectangular shape when viewed from above, the concrete panels 21 constituting the inner concrete wall 20 have a uniform thickness, respectively, and are formed of a square panel or hexagonal panel forming a plane. When the inner concrete wall 20 is circular when viewed from above, the concrete panels 21 constituting the inner concrete wall 20 are each formed as curved panels having a uniform thickness and the same radius of curvature. When the inner concrete wall 20 is oval when viewed from above, the concrete panel 21 constituting the inner concrete wall 20 is formed as a curved panel.

The concrete panel 21 is preferably supported by the support means 60 on the order wall 10 . As an example of the support means 60 , as shown in FIG. 4 , the support means 60 has a plurality of through holes 1 in the concrete panel 21 , and the through holes 1 of the concrete panel 21 . ) is inserted through and includes a fixing pin 2 (or anchor bolt) that is inserted into the order wall 10 . As another example of the support means 60, as shown in FIG. 5, the support means 60 includes the locking brackets 3 coupled to the column-type piles 11 of the order wall 10, and a concrete panel ( It is provided on the rear surface of the 21) and includes a locking groove (4) for hooking the locking brackets (3).

The floor body 30 is constructed on the inner basement floor of the inner concrete wall 20 . The upper surface of the floor body 30 is preferably located above the lower end of the inner concrete wall (20). As an example of the floor body 30, the floor body 30 is a cast concrete layer 31 poured on the inner basement of the inner concrete wall 20, and a waterproof layer 50 provided on the upper surface of the cast concrete layer 31. ) and the waterproof layer 50, it is preferable to include a concrete base layer 32 poured on the upper surface.

The outer concrete wall 40 is formed to a thickness set in the inner concrete wall 20 . The outer concrete wall 40 has the same cross-sectional shape as the cross-sectional shape of the inner concrete wall 20 . The lower end of the outer concrete wall 40 is formed from the floor 30 and the upper end is formed to a height corresponding to the upper end of the inner concrete wall 20 .

The waterproof layer 50 is provided between the inner concrete wall 20 and the outer concrete wall 40 . The waterproof layer 50 preferably includes a waterproof sheet. The waterproof layer 50 is preferably formed integrally with the waterproof layer 50 provided on the floor 30 .

6 is a flowchart showing an embodiment of the underground vertical structure construction method according to the present invention.

As shown in Figure 6, an embodiment of the underground vertical structure construction method according to the present invention, first, to form a polygonal or closed curve shape in the ground to construct the underground vertical structure by installing the column-type piles 11 to install the order wall The construction step (S1) proceeds (see Fig. 7a). The order wall 10 including the column-type piles 11 is installed in a polygonal or closed curve shape when viewed from above, in one shape of a rectangle, a hexagon, a circle, and an oval. Hereinafter, a case in which the column-type piles 11 are installed in a rectangular shape will be described. Since the technology for installing the column-type piles 11 on the ground is a general technology, a detailed description thereof will be omitted.

After installing the column-type piles 11, the ground excavation area surrounded by the column-type piles 11 is excavated to a unit depth, and the column-type pile is excavated to the unit depth to contact the exposed column-type piles 11. The concrete panels 21 are arranged along the piles 11 to form a polygonal or closed curve in the horizontal direction, and braces 80 are installed to support the horizontally arranged concrete panels 21, so that the unit inner concrete wall W1 ) of the unit inner wall construction step (S2) is in progress (see Fig. 7b). When the order wall 10 is rectangular when viewed from above (cross-sectional shape), the unit inner concrete wall W1 is also rectangular when viewed from above. Each of the concrete panels 21 constituting the rectangular unit inner concrete wall W1 has a uniform thickness and is a flat rectangular panel, and may also be a hexagonal panel or a triangular panel. When the unit inner concrete wall W1 has a circular cross-sectional shape, the concrete panels 21 constituting the unit inner concrete wall W1 are each formed as a curved panel having a uniform thickness and the same radius of curvature. In addition, when the unit inner concrete wall (W1) has an elliptical cross-sectional shape, the concrete panel 21 constituting the unit inner concrete wall (W1) is formed as a curved panel. The concrete panels 21 are arranged in a horizontal direction, each standing in a vertical direction and supported on the order wall 10 , and the concrete panels 21 arranged in a row in the horizontal direction are supported by braces 80 . The concrete panel 21 is preferably supported by the support means 70 on the order wall 10 . As an example of the support means 70 , as shown in FIG. 4 , the support means 70 includes a plurality of through holes 1 in the concrete panel 21 , and the through holes 1 of the concrete panel 21 . ) and a fixing pin (or anchor bolt) (2) inserted through and embedded in the order wall (10). That is, in a state in which the concrete panel 21 is supported on the order wall 10, the fixing pin 2 is driven into the order wall 10 through the through hole 1 of the concrete panel 21 to support the concrete panel 21. . As another example of the support means 70, as shown in FIG. 5, the support means 70 includes the locking brackets 3 coupled to the column-type piles 11 of the order wall 10, and a concrete panel ( It is provided on the rear surface of the 21) and includes a locking groove (4) to which the locking brackets (3) are caught. That is, when the locking brackets 3 are coupled to the column-type pile 11 of the order wall 10 and the concrete panel 21 is supported on the order wall 10, the locking groove 4 provided on the rear surface of the concrete panel 21 is supported by hanging on the locking brackets (3). In the unit inner wall construction step (S2), installing a wale on the concrete panels 21 arranged along the column-type piles 11 and installing braces 80 on the wale to support the concrete panels 21 desirable.

After constructing the unit inner concrete wall (W1), repeat the unit inner wall construction step (S2) to a set depth to construct the inner concrete wall 20 having a polygonal or closed curved cross-section (S3) proceeds (Fig. see 7c). The inner concrete wall 20 constructed in this way has a rectangular vertical interior space when the cross section is rectangular.

After constructing the inner concrete wall 20, a step (S4) of pouring the discarded concrete 31 on the inner basement floor of the inner concrete wall 20 is performed (see FIG. 7d).

After pouring the discarded concrete 31, and after the discarded concrete 31 is cured, the step (S5) of constructing the waterproofing layer 50 on the inner concrete wall 20 and the discarded concrete 31 is performed (see Fig. 7d). ).

After constructing the waterproofing layer 50 on the abandoned concrete 31, a step (S6) of pouring the foundation concrete 32 on the waterproofing layer 50 of the abandoned concrete 31 is performed. The upper surface of the foundation concrete 32 is preferably poured so as to be positioned above the lower end of the inner concrete wall 20 (see FIG. 7d).

After pouring the foundation concrete 32, the step (S7) of dismantling the braces 80 constructed in the unit inner wall construction step (S2) adjacent to the upper side of the foundation concrete 32 is performed.

After removing the supporting beams 80 adjacent to the upper side of the foundation concrete 32, and then installing the formwork on the inner concrete wall 20 to pour the unit outer concrete wall 40 following the inner concrete wall 20 (S8) is going on The formwork has a predetermined height in the concrete foundation 32 and is installed at a set interval with the inner concrete wall 20 . As an example of the formwork, the formwork includes concrete panels 21 for formwork arranged in the horizontal direction on the upper surface of the foundation concrete 32 at a distance from the inner concrete wall 20, and the concrete panels 21 for the formwork, respectively. It is preferable to include a connection unit for connecting to the inner concrete wall (20). As an example of the connection unit 22 , the connection unit 22 is embedded in the inner concrete wall 20 , the inner bolt 6 with the male screw portion exposed to the outside, and the connection nut to the male screw portion of the inner bolt 6 . Both bolts 8 that are inserted through the concrete panel 21 for formwork connected by (7), respectively, are located on both sides of the concrete panel 21 for formwork and are fastened to one male thread part of both bolts 8 It includes two fixing nuts (9). In this way, when the formwork is installed as a concrete panel-type formwork, there is no need to install scaffolding for the formwork, so the construction is very simple.

After the formwork is installed, concrete is poured into the formwork and cured to construct the unit outer concrete wall W2 (S9) (see FIGS. 7e and 7f).

After constructing the unit outer concrete wall (W2), remove the braces (80) installed in the unit inner wall construction step (S2) located just above the unit outer concrete wall (W2), and install the formwork over the unit outer concrete wall (W2) and repeating the unit outer wall construction step of constructing the unit outer concrete wall W2 by pouring concrete to construct the outer concrete wall 40 (S10) proceeds (see Fig. 7g). The formwork installed in the unit outer wall construction step is preferably the same as the formwork used for the unit outer concrete wall W2 constructed following the foundation concrete 32 . The upper end of the outer concrete wall 40 is constructed at the same height as the upper end of the inner concrete wall 20 , and the cross-sectional shape of the outer concrete wall 40 is the same as the cross-sectional shape of the inner concrete wall 20 .

Hereinafter, the operation and effect of the underground vertical structure and its construction method according to the present invention will be described.

The underground vertical structure of the present invention has a plurality of concrete panels 21 in the horizontal and vertical directions on the order wall 10 so that the order wall 10 is installed in the ground in the form of a polygon or a closed curve to support the earth wall and contact the order wall 10. These are arranged to constitute the inner concrete wall 20, the floor 30 is provided on the inner basement floor of the inner concrete wall 20, and the outer concrete wall 40 is provided with a thickness set in the inner concrete wall 20. It firmly supports the pressure of the soil wall and forms a space in the vertical direction.

In addition, the underground vertical structure construction method of the present invention installs the column-type piles 11 to form a polygonal or closed curve shape, and repeats the unit inner wall construction step while constructing the inner concrete wall 20 having a set depth and constructing the inner concrete After pouring discarded concrete 31 on the inner basement floor of the wall 20, then constructing the waterproofing layer 50, then pouring the foundation concrete 32, and repeating the unit outer wall construction step on the inner concrete wall 20 Since the outer concrete wall 40 is constructed, the underground vertical structure having a vertical interior space while supporting the earth wall is easily constructed, and the underground vertical structure is constructed quickly and firmly.

In addition, since the underground vertical structure of the present invention supports the inner concrete wall 20 without a support material such as a separate earth anchor for supporting the inner concrete wall 20, it occupies less underground installation space in the ground, so that the buildings are adjacent to each other. Even if you do, installation is free.

In addition, since the present invention does not require backfilling of the backside of the structure after installation of the underground vertical structure is completed, the amount of excavated soil is small, and the economical efficiency is excellent. be able to recover

10; barrier 20; inner concrete wall
30; bottom 40; exterior concrete wall
50; waterproof layer

Claims (7)

delete delete delete constructing an order wall by installing column-type piles to form a polygonal or closed curve shape in the ground to construct the underground structure;
The ground excavation area surrounded by the column-type piles is excavated to a unit depth, and the concrete panels are horizontally polygonal along the column-type piles so that they are in contact with the exposed column-type piles excavated to the unit depth. or a unit inner wall construction step of constructing a unit inner concrete wall by arranging to form a closed curve and installing braces to support the arranged concrete panels;
repeating the unit inner wall construction step to a set depth to construct an inner concrete wall in a closed curve shape;
pouring discarded concrete on the inner basement floor of the inner concrete wall;
constructing a waterproofing layer on the inner concrete wall and the abandoned concrete;
pouring the foundation concrete on the waterproof layer of the discarded concrete;
dismantling the braces installed in the unit inner wall construction step adjacent to the upper side of the foundation concrete;
installing a formwork on the inner concrete wall so as to pour a unit outer concrete wall following the inner concrete wall;
constructing a unit outer concrete wall by pouring and curing concrete in the formwork;
The steps of removing the braces installed in the unit inner wall construction step located directly above the unit outer concrete wall and repeating the unit outer wall construction step of constructing the unit outer concrete wall over the unit outer concrete wall to construct the outer concrete wall; includes,
The formwork includes concrete panels for formwork arranged in a horizontal direction on the upper surface of the foundation concrete at a distance from the inner concrete wall, and a connecting unit for connecting the concrete panels for formwork to the inner concrete wall, respectively,
In the unit inner wall construction step, the concrete panel has a uniform thickness, forms a plane, is provided with a plurality of through-holes, supports the concrete panel on the order wall, and then anchors bolts or fixes to the through-holes of the concrete panel, respectively The underground vertical structure construction method, characterized in that by inserting a pin through and driving it into the order wall to support the concrete panel. delete delete delete

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