KR102052559B1 - Construction method for underground wall using sheet pile - Google Patents

Abstract

Disclosed in the present invention is a method for constructing an underground wall body using a sheet pile, which comprises: a casing insertion step; a guide member installation step; a filling step; a casing drawing step; a casing insertion step; a substitution wall body structure forming step; and a sheet pile underground wall body forming step. Therefore, construction costs are reduced and a stable construction is enabled.

Description

Construction method of sheet pile underground wall {CONSTRUCTION METHOD FOR UNDERGROUND WALL USING SHEET PILE}

The present invention relates to the field of construction, and more particularly, to a method of constructing a sheet pile underground wall.

Sheet piles are generally used as a structure for forming underground walls by embedding and mutual coupling by driving.

In order to be reclaimed by driving, the ground is required to be made of high-quality soil, and the ground is formed by bedrock such as amber stone (stone layer), dense gravel layer, weathered rock, soft rock, and hard rock. If the ground is hard and dense, the above method is impossible.

Korean Patent No. 348024 relates to a method for constructing a sheet pile underground wall suitable for such a case.

As shown in Fig. 1, (b) inserting the casing (1) simultaneously with the drilling to the design depth of the ground to be worked on, and (b) inserting the guide beam in the drilling hole (2) in the casing at right angles to the installation direction of the sheet pile. (3) Inserted and temporarily installed in the empty space between the fin casing (1) and the guide beam (3), for example, a substitute material such as high quality earth or sand or bentonite or any grout material capable of direct stroke. After filling ⑷, carefully collecting the casing carefully taking care not to rise along the filling material in the casing, ⑸ followed by, in contact with the guide beam (3) temporarily installed in the preceding hole (2), By repeating the processes of 과정 to ⑷, forming a continuous column-like continuous wall on the work ground to a considerable distance, and (i) drawing the guide beam 3 from the continuous column-shaped continuous wall filled with the above-mentioned substitutes. After the cutting, the sheet pile 3 was directly pushed into the drilling hole 2 in the installation direction of the sheet pile.

By the way, such a prior art has a problem that an excessively large amount of replacement material (4) is required to increase the construction cost.

That is, as a substitute 4, high quality earth and sand, which can replace the pile pile, or fry ash and bentonite, which can replace the same, are used, and these are expensive compared to general earth and sand, and in the case of poor accessibility, the transport cost is high. There is a problem that it takes a great deal.

Reference numerals of the prior art are to be limited only to the description of the prior art.

Korean Registered Patent No. 348024

The present invention has been made to solve the above problems, and its object is to present a method for constructing a sheet pile underground wall construction that can be stable while reducing the construction cost.

In order to solve the above problems, the present invention is a sheet pile underground wall construction method for continuously filling a plurality of sheet piles 100 in one direction along the ground, and to form a ground wall by mutual coupling In the casing insertion step of forming a first hole (11) for the ground, inserting the casing (20); Installing the guide member 200 in the casing 20, the guide member installation step of installing in a direction perpendicular to the installation direction of the plurality of sheet pile 100; Among the inner regions of the casing 20 partitioned by the guide member 200, the other side 21 is filled with the substitution material a, and the one side 22 is filled with the field soil b. step; A casing drawing step of drawing the casing 20 in a state where the guide member 200, the substitute material a, and the field soil b are embedded; The second drilling hole 12 is formed in the ground adjacent to one side of the guide member 200, and the second drilling hole is excavated so that the spot soil b of one side area 22 of the guide member 200 is excavated. A casing insertion step of forming a 12 and inserting the casing 20 into the casing; By repeating the guide member installation step, the filling step, the casing drawing step and the casing insertion step, a plurality of the guide member 200 is installed at a mutual interval, and one side region 22 of the guide member 200 and A substitution wall structure forming step in which the other side region 21 forms a columnar substitution wall structure filled with the substitution material (a); A sheet pile underground wall forming step of drawing a plurality of the guide member 200 in sequence, filling the plurality of sheet piles 100 in sequence, and filling them, and forming a sheet pile underground wall by mutual coupling. It proposes a sheet pile underground wall construction method comprising a.

The guide member 200 is preferably the sheet pile 100.

The guide member 200, the flat portion 201 formed in a direction perpendicular to the installation direction of the plurality of sheet pile 100; It is preferable to include; recessed curved portion 202 formed on one side of the flat portion 201 to correspond to the curved outer surface of the casing 20.

The guide member 200 is formed so as to connect the front and rear sides of the flat portion 201 and the curved portion, respectively, and the front protrusion curved portion 203 and the rear protrusion curved portion formed to correspond to the curved inner surface of the casing 20 ( 204); preferably.

The present invention proposes a method of constructing a sheet pile underground wall that can be stable while reducing the construction cost.

1 is a process diagram of the prior art.
Figure 2 below shows an embodiment of the present invention,
2 to 7 are process diagrams of the first embodiment.
8 to 10 are process diagrams of a second embodiment.

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

As shown in FIG. 2 or less, the present invention basically includes a plurality of sheet piles 100 sequentially buried in one direction along the ground, and a sheet pile for forming underground walls by combining with each other. Regarding the construction method of underground walls, the following processes are carried out.

The punching hole 11 is formed with respect to the ground, and the casing 20 is inserted (FIG. 2).

The guide member 200 is installed inside the casing 20, but is installed in a direction perpendicular to the installation direction of the plurality of sheet piles 100 (FIG. 3).

Of the inner region of the casing 20 partitioned by the guide member 200, the other region 21 is filled with the substitution material a, and the one region 22 is filled with the field soil b. ).

In the state where the guide member 200, the substitution material (a), and the field soil (b) are embedded, the casing 20 is drawn out (FIG. 5).

The second hole 12 is formed on the ground adjacent to one side of the guide member 200, and the second hole 12 is excavated so that the spot soil b of one side region 22 of the guide member 200 is excavated. Form and insert the casing 20 again (FIG. 5).

By repeating the above guide member installation step, filling step, casing drawing step and casing insertion step, a plurality of guide members 200 are installed at intervals from each other, as well as one side region 22 and the other side region of the guide member 200. (21) forms the columnar substitution wall structure filled with the substitution material (a) (FIG. 6).

A plurality of guide members 200 are sequentially drawn out, and a plurality of sheet piles 100 are sequentially driven and embedded, and the sheet pile underground walls are combined with each other.

That is, in both regions of the guide member 200 installed in the casing 20 inserted into the perforation hole, the other region 21 is filled with the substitution material a, and the one region 22 is filled with the field soil b. ) Is a technical feature of charging.

The other side area 21 of the guide member 200 is maintained in its state (the state where the substitute material a is filled) until the driving operation of the sheet pile 100, but the one side area 22 of the guide member 200. Since anyway will be excavated by a drilling operation by the drilling equipment, so as to fill the site soil (b) generated in the field, without filling with one of the expensive substitutes (a) to one side area (22).

This has the following advantages.

First, since the use of the replacement material (a) is significantly reduced compared to the prior art, it is possible to reduce the construction cost and period.

Second, despite the use of site soil, stable construction of underground walls is possible.

Strictly speaking, the structure of the substitutive wall structure in which the ground is substituted is composed of most of the substitution material (a), but part of the soil (b) remains (Figs. 6 and 7).

However, since the punching equipment forming the punching hole having a circular cross section overlaps the center of the adjacent punching holes, the punching equipment overlaps the center portion of the adjacent punching holes, so that the field soil (b) does not remain in the central region where the sheet pile 100 is installed. Since it remains, there is no influence on the driving operation of the seat pile 100.

That is, the site soil (b) is to remain in the front and rear one side edge of the perforated hole irrelevant to the installation area of the sheet pile 100, so as not to interfere with the driving operation of the sheet pile 100 (Fig. 7). ).

As the guide member 200, the sheet pile 100 may be used.

By the way, the guide member 200, the flat portion 201 formed in a direction perpendicular to the installation direction of the plurality of sheet pile 100; When the structure including the recessed curved portion 202 formed on one side of the flat portion 201 to correspond to the curved outer surface of the casing 20, the following effects can be obtained (Figs. 8 and 9) .

First, since the recessed bent portion 202 corresponding to the shape of the drilling equipment and the casing is formed, the precise position and verticality of the next drilling hole can be secured, thereby enabling a stable drilling operation.

Second, since one side region 22 filled with the site soil b is reliably excavated by a drilling operation for forming the next hole, the site soil b hardly remains in the columnar replacement wall structure.

The upper guide member 200 is formed to connect the front and rear of the flat portion 201 and the curved portion, respectively, and the front protrusion curved portion 203 and the rear protrusion curved portion 204 formed to correspond to the curved inner surface of the casing 20. It can take a structure that further includes; in this case, since the inner region of the casing 20 is reliably divided into two kinds of regions 21, 22, the above-described effect can be obtained more stably (Fig. 10). ).

Since the above has just been described 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.

a: Substituent b: Field soil
11: Hole 1 Hole 12: Hole 2 Hole
20: casing 21: other area
22: one side area 100: sheet file
200: guide member 201: flat portion
202: depression curved portion 203: front protrusion curved portion
204: rear protrusion bent portion

Claims (4)

In the sheet pile underground wall construction method for continuously filling a plurality of sheet piles (100) in one direction along the ground, and to form a ground wall by mutual coupling,
A casing insertion step of forming a drilling hole 11 in the ground and inserting the casing 20 into the ground;
Installing the guide member 200 in the casing 20, the guide member installation step of installing in a direction perpendicular to the installation direction of the plurality of sheet pile 100;
Among the inner regions of the casing 20 partitioned by the guide member 200, the other side 21 is filled with the replacement material a, and the one side 22 is filled with the field soil b. step;
A casing drawing step of drawing the casing 20 in a state where the guide member 200, the substitute material a, and the field soil b are embedded;
The second drilling hole 12 is formed in the ground adjacent to one side of the guide member 200, and the second drilling hole is excavated so that the spot soil b of one side region 22 of the guide member 200 is excavated. A casing insertion step of forming a 12 and inserting the casing 20 into the casing;
By repeating the guide member installation step, the filling step, the casing drawing step and the casing insertion step, a plurality of the guide member 200 is installed at intervals from each other, and one side area 22 of the guide member 200 and A substitution wall structure forming step in which the other side region 21 forms a columnar substitution wall structure filled with the substitution material (a);
Sheet pile underground wall forming step of drawing a plurality of the guide member 200 in sequence, filling the plurality of the sheet pile 100 in sequence, and filling them, and forming a sheet pile underground wall by mutual coupling. ;
Sheet pile underground wall construction method comprising a. The method of claim 1,
The guide member 200 is a sheet pile underground wall construction method, characterized in that the sheet pile (100). The method of claim 1,
The guide member 200,
A flat part 201 formed in a direction perpendicular to an installation direction of the plurality of sheet piles 100;
Depression curved portion 202 formed on one side of the flat portion 201 to correspond to the curved outer surface of the casing 20;
Sheet pile underground wall construction method comprising a. The method of claim 3,
The guide member 200,
A front protrusion curved portion 203 and a rear protrusion curved portion 204 which are formed to connect the front and rear sides of the flat portion 201 and the curved portion, respectively, and correspond to the curved inner surface of the casing 20;
Sheet pile underground wall construction method comprising a.

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