KR20160087964A - Construction method for addition pile - Google Patents

Abstract

The present invention relates to a construction method for an additional pile, capable of stably reinforcing a foundation structure when an existing structure is extended. The construction method for an additional pile includes: a boring step of forming a bored hole (30) by being adjacent to an existing foundation plate (20) supporting a load of an upper structure with an existing pile (10) installed on the lower side; an additional pile installing step of installing an additional pile (100) in the bored hole (30) and enabling the additional pile (100) to be integrated with the existing foundation plate (20); a pressing device installing step of installing a pressing device (300); a displacement forming step of pressing the additional pile (100) to the lower side by the pressing device (300) and forming displacement of a vertical direction between the additional pile (100) and the ground; an additional foundation plate forming step of forming the additional foundation plate (200) by reinforced concrete to be integrated with the existing foundation plate (20) and integrating the additional foundation plate (200) and an upper end of the additional pile (100) in a pressed state; and a pressing device removing step of removing a whole or a part of the pressing device (300) after the additional foundation plate (200) is hardened.

Description

{CONSTRUCTION METHOD FOR ADDITION PILE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction field, and more particularly to a construction method of a file.

If it is necessary to expand (enlarge) the size of the existing structure, such as the remodeling of the apartment, reinforcement of the foundation structure becomes a problem.

1 and 2 are process drawings for explaining a conventional additional file construction method.

The additional foundation bottom plate 22 is provided on the side of the existing foundation bottom plate 20 of the existing structure 1 provided on the existing file 10 and the additional file 10a is provided below the additional foundation bottom plate 22, (See Figs. 1 and 2).

That is, in order to resist the load of the increased upper structure, when the additional base bottom plate 22 is installed by the insertion of the reinforced concrete, the additional pile 10a is integrally formed with the additional base bottom plate 22 will be.

In this construction process, no additional load acts on the additional pile 10a and the additional basement bottom 22 other than its own weight (before the upper structure added on the additional basement bottom 22 is built) No displacement occurs between the ground and the ground, even if it occurs.

However, the conventional method has the following problems.

Assuming that the existing structure 1 has a load of 200, the two existing files 10 inherently bear 100 loads, respectively (Fig. 1).

If the structure 2 expanded by the remodeling has a load of 400, the two existing files 10 and the two additional files 10a should bear a load of 100 each.

However, in actual practice, when the additional file is constructed by the conventional method, a larger load 120 is applied to the existing file 10 and a smaller load 80 is applied to the additional file 10a have.

The file exhibits the strength by the frictional force (the frictional force between the outer circumference of the file and the ground) and the tip end supporting force. In order to generate the frictional surface force, the file is required to be displaced between the outer circumference of the file and the ground.

However, when the additional file is installed by the conventional method, since the enlarged structure 2 is constructed in such a state that the displacement does not occur between the outer circumference of the additional file and the ground, or the space is small, the frictional force of the additional file does not act , There is a problem that existing files bear more load.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an additional pile construction method capable of stably reinforcing a foundation structure when an existing structure is expanded.

According to an aspect of the present invention, there is provided a method of manufacturing a semiconductor device, the method comprising the steps of: forming a perforation hole (30) adjacent to an existing bottom plate (20) supporting a load of an upper structure together with an existing file (10) Installing additional files (100) in the perforation holes (30) and integrating the additional files (100) and the perforation holes (30); A pressurizing device installing step of installing the pressurizing device 300; Forming a vertical displacement between the additional file (100) and the ground by pressing the additional file (100) downward by the pressing device (300); An additional base bottom plate 200 is formed by reinforcing concrete so as to be integrated with the existing bottom bottom plate 20 so that the upper end of the additional file 100 in a pressed state is integrated with the additional base bottom plate 200 A base bottom plate forming step; And a pressurizing device removing step of removing all or a part of the pressurizing device 300 after the curing of the additional foundation bottom plate 200. [

The pressing device 300 includes a pressing member 310 having a bottom plate 311 that comes into surface contact with the upper end of the additional file 100 and having a tubular body 312; A loading rod 320 inserted into the body 312 of the pressing member 310 to press the pressing member 310 downward; A support table 330 installed at the upper portion of the additional file 100 to allow the load rod 320 to move in the vertical direction and to prevent lateral displacement; (400) for loading a load with respect to the load rod (320), wherein the pressing member (310) is arranged in the additional base plate forming step ).

It is preferable that a protrusion 313 protruding outward is formed on the outer surface of the body 312 of the pressing member 310 so as to firmly engage with the additional base bottom plate 200.

It is preferable that a cast iron root through hole 314 is formed in the edge of the bottom plate 311 of the pressing member 310 so that the cast iron core 101 of the additional pile 100 protruding upward passes through.

The lower portion 400 includes a weight support plate 410 formed on the upper portion of the weight member a and coupled to an upper portion of the load rod 320. And a support plate guide unit 420 installed on the support base 330 to allow the weight support plate 410 to move in the vertical direction and to prevent lateral deviation.

The lower sub-assembly lower part 400 includes an anchor support part 430 having a fixing part 431 at the edge part and a deep part coupled to the upper part of the load rod 320; The lower end of the tension member 442 is fixed to the solidified member 441 formed in the ground adjacent to the additional file 100 and the upper end of the tensioned member 442 is fixed to the fixing plate 431, ). ≪ / RTI >

The pressurizing device 300 further includes a load adjusting device 340 installed between the load lower portion 400 and the load rod 320 so as to adjust a load applied to the load rod 320 .

The step of installing the additional foundation bottom plate includes the steps of: providing a plurality of anchors (21) on a side surface of the existing foundation bottom plate (20) so that an outer end of the anchor (21) is exposed; And forming the additional foundation bottom plate 200 by reinforcing concrete so that an exposed portion of the anchor 21 is embedded in the reinforced concrete.

If the existing bottom plate 20 is a mat base structure, it is preferable that the additional bottom bottom plate 200 is installed in an outer region of the existing bottom bottom plate 20.

If the existing bottom plate 20 is an independent base structure, it is preferable that the additional base bottom plate 200 is provided in a region between a plurality of the existing bottom plates 20.

The present invention proposes an additional pile construction method that can stably reinforce a foundation structure when an existing structure is enlarged.

1 and 2 are process drawings of a conventional additional file construction method.
3 shows the embodiment of the present invention,
Figs. 3 to 5 are process drawings of a method for constructing additional files. Fig.
6 is a stress distribution diagram.
7 is a sectional view of the first embodiment of the pressure device.
8 is a perspective view of the pressing member.
9 is a sectional view of a second embodiment of the pressure device.
10 is a sectional view of a third embodiment of the pressure device.
11 is a sectional view of a fourth embodiment of the pressure device.

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

As shown in FIG. 3 and subsequent drawings, the additional file construction method according to the present invention is basically performed by the following process.

A perforation hole 30 is formed adjacent to an existing bottom plate 20 supporting a load of the upper structure together with an existing file 10 installed on the lower side and an additional file 100 is installed in the perforation hole 30 The grout G or the like to integrate the additional file 100 and the perforation hole 30 (FIG. 3).

The pressurizing device 300 is installed and the additional file 100 is pressed downward by the pressurizing device 300 so that a vertical displacement is formed between the additional file 100 and the ground.

An additional base bottom plate 200 is formed by reinforcing concrete so as to be integrated with the existing base bottom plate 20 so that the upper end of the additional file 100 in a pressed state is integrated with the additional base bottom plate 200 ).

After curing the additional base bottom plate 200, all or part of the pressurizing device 300 is removed.

That is, instead of merely installing additional files with respect to the additional base bottom plate as in the prior art, the additional file 100 is pressed downward by the pressurizing device 300, and the vertical displacement (between the additional file 100 and the ground) The additional base plate 200 is installed so as to be integrated with the upper end of the supplementary file 100. In this case,

When the upper structure is enlarged on the additional foundation bottom plate 200 after the displacement occurs between the additional file 100 and the ground, the additional file 100 exhibits not only the end support force but also the frictional force Therefore, the additional file 100 can properly share the additional load of the expanded structure, thereby reducing or eliminating the burden of adding the load to the existing file 10.

The step of installing the additional foundation bottom plate is performed by providing a plurality of anchors 21 on the side surface of the existing foundation bottom plate 20 so that the outer end of the anchor 21 is exposed and forming the additional foundation bottom plate 200 by the reinforced concrete It is preferable that the exposed bottom portion of the anchor 21 be embedded in the reinforced concrete so that the existing bottom plate 20 and the additional bottom plate 200 have an integrated structure (FIGS. 3 and 4).

Hereinafter, an embodiment related to the specific structure of the pressurizing device 300 will be described.

The pressurizing device 300 basically comprises a pressing member 310 having a bottom plate 311 in surface contact with the upper end of the additional pile 100 and having a tubular body 312; A loading rod 320 inserted into the body 312 of the pressing member 310 to press the pressing member 310 downward; A support table 330 installed on the upper portion of the additional pile 100 to allow the load rod 320 to move in the vertical direction and to prevent lateral displacement; And a lower load lower portion 400 for loading the load to the load load 320. [

The pressing member 310 is embedded in the additional base bottom plate 200 in the additional base bottom plate forming step after the completion of the displacement forming step.

That is, the pressing member 310 is provided so as to be in surface contact with the upper end of the additional file 100 separately from the loading rod 320, and the additional file 100 is pressed by the loading rod 320 through the pressing member 310 After that, an additional base bottom plate 200 is formed so that the pressing member 310 is embedded in the concrete in this state, and the concrete load after the concrete is cured is disassembled and recycled.

Since the pressing member 310 is embedded in the concrete in a state where the upper end of the additional pile 100 is pressed through the load rod 320, the pressing member 310 can be firmly coupled with the additional base bottom plate 200, A protruding portion 313 such as a ring structure protruding outward is preferably formed on the outer surface of the body portion 312 (FIG. 8).

The additional file 100 may have various structures and an additional file 100 protruding upward may be formed at the edge of the bottom plate 311 of the pressing member 310 when the cast iron core 101 protrudes upward. It is preferable for the pressurizing member 310 to perform a stable pressurizing operation by taking the constitution in which the cast iron root penetration hole 314 is formed so as to penetrate the cast iron root 101 of the pressing member 310. [

The load on the pressurizing device 300 can be realized by various embodiments.

First, the load can be loaded by the weight (a) (FIG. 7).

Here, the lower part of the lower part 400 includes a weight support plate 410 formed on the upper part of which the weight body a is seated and coupled to the upper part of the load rod 320. And a support plate guide part 420 installed on the support base 330 to allow the weight support plate 410 to move in the vertical direction and to prevent the lateral release of the weight support plate 410 (FIG. 7).

In this case, the load transmitted through the weight supporting plate 410 and the load rod 320 by the weight a is transmitted to the upper end of the additional pile 100 by the pressing member 310 to load the load .

The guide portion 420 allows the weight support plate 410 to move in the vertical direction and prevents the weight support plate 410 from being laterally separated from the support portion 330 by a support hole formed in the support base 330 and a support bar.

After the loading of the load (pressurization to the additional file) and completion of the curing of the additional base plate 200, the weight (a), the weight support plate 410, the load rod 320 and a part of the support base 330 are removed Recycled.

Second, the load can be loaded by the tension anchor 440 (FIG. 9).

Here, the lower part of the lower part 400 includes an anchor support part 430 having a fixing part 431 at the edge thereof and a deep part coupled to the upper part of the loader 320. A tension anchor 440 formed by fixing the lower end of the tension member 442 to the solidified member 441 formed in the ground adjacent to the additional file 100 and fixing the upper end of the tension member 442 to the fixing plate 431; (Fig. 9).

In this case, the load transmitted through the tensile anchor 440, the anchor supporting portion 430, and the load rod 320 is transmitted to the upper end of the additional pile 100 by the pressing member 310 to load the load.

The tensile anchor 440 is formed by fixing a tension member 442 whose lower end is fixed to the solidification member 441 to the fixing plate 431 of the anchor supporting member 430 after the ground penetration and the solidification 441 are formed, The load is loaded.

It is preferable to provide a plurality of tensile anchors 440 at both ends or all sides of the anchor support portion 430 for stable loading.

On the other hand, when a load adjusting device 340 having a structure such as a hydraulic jack is provided between the lower load carrying member 400 and the load carrying member 320 so as to adjust the load applied to the load carrying member 320, the load applied to the load rod 320 by the load adjusting device 340 can be precisely adjusted after a constant load is applied by the tension anchor 440 or the tension anchor 440, 100 can be performed (Figs. 10 and 11).

Although the embodiment in which the existing base bottom plate 20 is a mat base structure and the additional base bottom plate 200 is provided in the outer region of the existing base bottom plate 20 has been described above, The above effect can be obtained by providing the additional foundation bottom plate 200 in the area between the plurality of existing foundation bottoms 20 and constructing the additional file 100 in the same manner.

In the above description, the additional file 100 is a reinforced concrete pile 100a such as a PHC, but the method according to the present invention can be effectively applied to a file made of a steel pipe or a steel rod.

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.

10: existing file 20: existing base plate
21: anchor 30: hole
100: Additional file 200: Additional base plate
300: pressure device 310: pressure member
311: bottom plate 312: body part
313: protrusion 314: cast iron root penetration hole
320: load load 330: support
400: lower loader bottom 410: weight loader plate
420: Support plate guide part 430: Anchor support part
431: Fusing plate 440: Tension anchor
441: Solidification 442: Tension material

Claims (10)

Forming a perforation hole (30) adjacent to the existing bottom plate (20) supporting the load of the upper structure together with the existing pile (10) installed on the lower side;
Installing additional files (100) in the perforation holes (30) and integrating the additional files (100) and the perforation holes (30);
A pressurizing device installing step of installing the pressurizing device 300;
Forming a vertical displacement between the additional file (100) and the ground by pressing the additional file (100) downward by the pressing device (300);
An additional base bottom plate 200 is formed by reinforcing concrete so as to be integrated with the existing bottom bottom plate 20 so that the upper end of the additional file 100 in a pressed state is integrated with the additional base bottom plate 200 A base bottom plate forming step;
A pressing device removing step of removing all or a part of the pressing device 300 after the additional base bottom plate 200 is cured;
Including additional files construction method. The method according to claim 1,
The pressurizing device (300)
A pressing member 310 having a bottom plate 311 which is in surface contact with an upper end of the additional file 100 and having a tubular body 312;
A loading rod 320 inserted into the body 312 of the pressing member 310 to press the pressing member 310 downward;
A support table 330 installed at the upper portion of the additional file 100 to allow the load rod 320 to move in the vertical direction and to prevent lateral displacement;
And a load-carrying lower portion (400) for loading a load on the load rod (320)
Wherein the pressing member (310) is embedded in the additional base bottom plate (200) in the additional base bottom forming step after the completion of the displacement forming step. 3. The method of claim 2,
Wherein a protrusion (313) protruding outward is formed on an outer surface of the body portion (312) of the pressing member (310) so as to be firmly engaged with the additional base bottom plate (200). 3. The method of claim 2,
Wherein a cast iron root penetrating hole (314) is formed in the edge of the bottom plate (311) of the pressing member (310) so that the cast iron core (101) of the additional file (100) protruding upward passes through. 3. The method of claim 2,
The lower part of the lower part (400)
A weight support plate 410 formed on the upper portion of the weight member a so as to be seated thereon and coupled to an upper portion of the load rod 320;
A support plate guide part 420 installed on the support base 330 to allow the weight support plate 410 to move in the vertical direction and to prevent the lateral release of the weight support plate 410;
≪ / RTI > 3. The method of claim 2,
The lower part of the lower part (400)
Anchor support portion 430 having a fixing plate 431 at the edge thereof and a deep portion coupled to an upper portion of the load rod 320;
The lower end of the tension member 442 is fixed to the solidified member 441 formed in the ground adjacent to the additional file 100 and the upper end of the tensioned member 442 is fixed to the fixing plate 431. The tensile anchor 440 ). ≪ / RTI > 3. The method of claim 2,
The pressurizing device (300)
A load adjuster 340 installed between the lower load lower portion 400 and the load rod 320 to adjust a load applied to the load load 320;
Further comprising the steps of: The method according to claim 1,
The additional foundation bottom installation step includes:
Providing a plurality of anchors (21) on side surfaces of the existing bottom plate (20), exposing outer ends of the anchors (21);
Forming the additional foundation bottom plate 200 by reinforcing concrete so that an exposed portion of the anchor 21 is embedded in the reinforced concrete;
≪ / RTI > The method according to claim 1,
Wherein the additional foundation bottom plate (200) is installed in an area outside the existing foundation bottom (20) when the existing foundation bottom (20) is a mat foundation structure. The method according to claim 1,
Wherein the additional base bottom plate (200) is installed in a region between a plurality of the base bottom plates (20) when the existing base bottom plate (20) is an independent foundation structure.

Images