KR101722160B1 - Pre-loading apparatus for pile and pre-loading method using the same - Google Patents

Abstract

A pile (100) buried in the ground through a through hole (21) of a foundation bottom plate (20) of a structure; (200) installed to apply a preceding load to the pile (100); An engaging member 300 installed in the through hole 21 to cover the contact portions of the pile 100 and the rearsubstance 200; A wedge member 400 installed between the engaging member 300 and the through hole 21 so that the engaging member 300 is closely fitted to the through hole 21; And a support member (500) installed inside the through hole (21) so as to support the wedge member (400) in a downward direction. The present invention provides a pile prior loading device, So that the foundation structure can be stably stiffened.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a preloading apparatus for a pile,

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

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 pile construction method.

Conventionally, a method has been employed in which an additional pile 10a is installed around an existing pile 10 formed in a lower portion of a base bottom plate 20 of an existing structure 1 (Figs.

However, the conventional method has the following problems.

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

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

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

In order to generate the frictional force on the ground, it is required that displacement occurs between the outer periphery of the pile and the ground due to the frictional force (frictional force between the outer periphery of the pile) and the supporting force.

However, when the additional pile is installed by the conventional method, since the enlarged structure 2 is constructed with no displacement occurring between the outer periphery of the additional pile and the ground or in a small state, the frictional force of the additional pile does not act , There is a problem that the existing pile will bear more load.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pile prior loading device capable of stably supporting a foundation structure when an existing structure is expanded and a preloading method using the same. do.

In order to solve the above problems, the present invention provides a pile 100 embedded in the ground through a through hole 21 of a foundation bottom plate 20 of a structure; (200) installed to apply a preceding load to the pile (100); An engaging member 300 installed in the through hole 21 to cover the contact portions of the pile 100 and the rearsubstance 200; A wedge member 400 installed between the engaging member 300 and the through hole 21 so that the engaging member 300 is closely fitted to the through hole 21; And a support member (500) installed inside the through hole (21) to support the wedge member (400) downward.

A male screw portion is formed on the outer circumference of the re-lowering bar 200. The engaging member 300 is installed along the up and down direction so as to insert the upper end of the pile 100 and the lower end of the re- A body portion 310 having a tubular structure formed so that the width of the lower portion of the outer surface gradually increases with respect to the width of the upper portion of the outer surface; And a female threaded portion formed on the inner circumference of the mounting hole 311 so that the male thread of the reaming rod 200 is driven by a screw.

The body 310 may have a filler injection hole 312 formed along the vertical direction.

The wedge member 400 includes a plurality of engraved body portions 410 formed to gradually reduce a width of an inner lower portion of the wedge member 400 as compared to a width of an upper portion of the inner surface and to surround the outer surface of the engaging member 300 .

It is preferable that the support member 500 is formed in a tubular structure corresponding to the top surface shape of the wedge member 400.

The concave and convex portions 420 may be formed on the outer surface of the piece body 410.

A filling material moving groove 411 is formed on the outer surface of the piece body 410 in the vertical direction and the concave and convex portion 420 is provided with a groove portion 421 formed on both sides of the filling material moving groove 411 along the circumferential direction, .

It is preferable that the upper end of the filling material moving groove 411 is closed and the lower end thereof is opened.

The wedge member 400 is formed so that the width of the lower portion of the inner surface gradually decreases as compared with the width of the inner surface of the wedge member 400. The wedge member 400 is provided so as to surround the outer surface of the coupling member 300, And a trim main body part 430. [

The present invention relates to a preceding load applying method using a preceding load applying device for a pile, the method comprising: forming a through hole (21) in a base bottom plate (20) of the structure; Piercing the lower ground of the through hole (21), inserting the pile (100), and injecting grout to form a pile foundation; (200), a coupling member (300), and a wedge member (400) in the through hole (21); Pressing the wedge member 400 downward by the support member 500 to fix the joining member 300 and the wedge member 400 to a predetermined position inside the through hole 21; Pressing the remainder rod (200) downward to apply a preceding load to the pile (100); And filling the inside of the through hole (21) with a filler. The present invention also provides a preloading method for a pile.

The present invention relates to a preceding load applying method using a preceding load applying device for a pile, the method comprising: forming a through hole (21) in a base bottom plate (20) of the structure; Piercing the lower ground of the through hole (21), inserting the pile (100), and injecting grout to form a pile foundation; (200), a coupling member (300), and a wedge member (400) in the through hole (21); Pressing the wedge member 400 downward by the support member 500 to fix the joining member 300 and the wedge member 400 to a predetermined position inside the through hole 21; The joining member 300 is pulled upward by pulling the joining member 300 and the joining member 300 in a state where the wedge member 400 is supported by the support member 500 downward, (400); Applying the preceding load to the pile (100) by pressing the remainder rod (200) downward by screw driving; And filling the inside of the through hole (21) with a filler. The present invention also provides a preloading method for a pile.

The present invention proposes a pile prior loading device and a preceding loading method which can stably reinforce the foundation structure when the existing structure is expanded.

1 and 2 are process drawings of a conventional additional pile construction method.
3 shows the embodiment of the present invention,
3 and 4 are process drawings of the preceding load method.
5 is a stress distribution diagram.
6 is a sectional view of the preceding load device.
7 is a perspective view of a coupling member;
8 is a plan view of a coupling member and a wedge member;
9 is a front view of the first embodiment of the wedge member;
10 is a sectional view of a first embodiment of a wedge member;
11 is a perspective view of a first embodiment of a wedge member;
12 is a perspective view of a second embodiment of the wedge member;

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 preceding load method according to the present invention is basically composed of the following steps.

A through hole 21 is formed in the base bottom plate 20 supporting the load of the upper structure together with the existing pile 10 installed on the lower side and a perforation hole 30 is formed in the lower portion of the through hole 21 3).

A pile 100 such as a micro pile is installed in the through hole 21 and the punch hole 30 so that the pile 100 and the punch hole 30 are integrated by a grouting operation ).

The pile 100 is pressed downward to form a vertical displacement between the pile 100 and the ground and the upper end of the pile 100 and the base bottom plate 20 are integrated.

That is, the present invention is not limited to providing the pile 100 with respect to the base bottom plate 20, but rather is characterized in that the pile 100 is pressed downward to form a vertical displacement between the pile 100 and the ground will be.

When the existing structure is enlarged after the displacement between the pile 100 and the ground is generated, the pile 100 can exhibit the frictional force as well as the support force due to the displacement. Therefore, The load can be appropriately shared by the pile 100 and the burden of adding the load to the existing pile 10 can be eliminated or reduced.

As shown in FIG. 6 and subsequent drawings, the preceding load device according to the present invention basically comprises a pile 100 embedded in the ground through a through hole 21 of a base bottom plate 20 of a structure; (200) installed to apply a preceding load to the pile (100); A coupling member 300 installed inside the through hole 21 so as to cover a contact portion of the pile 100 and the rearsubstrate 200; A wedge member 400 provided between the coupling member 300 and the through hole 21 so that the coupling member 300 is closely fixed to the through hole 21; And a support member (500) installed inside the through hole (21) to support the wedge member (400) downward.

The preceding load method using the preceding load device of the pile according to the present invention is constituted by the following process.

A through hole 21 is formed in the bottom plate 20 of the structure and the lower ground of the through hole 21 is drilled to insert the pile 100 and grout is injected to form a pile foundation.

The reaming rod 200, the coupling member 300 and the wedge member 400 are installed in the through hole 21 so as to have the above structure.

The wedge member 400 is pressed downward by the support member 500 by a method such as hitching so that the engaging member 300 and the wedge member 400 are moved to a predetermined position inside the through hole 21 by the wedge action .

Thereafter, the re-lowering bar 200 is pressed downward to apply a preceding load to the pile 100, and then the inside of the through hole 21 is filled with filler such as mortar and closed.

In addition to the effect that the pile 100 can properly share the additional load of the above-mentioned enlarged structure, it is possible to achieve a stable and simple effect of the preceding loading work.

An installation hole 311 is formed along the vertical direction so that the upper end of the pile 100 and the lower end of the reed rod 200 are inserted. A body 310 having a tubular structure formed so that the width of the lower portion of the outer surface gradually increases in relation to the width of the upper portion of the outer surface; And a female screw portion formed on the inner periphery of the mounting hole 311 so that the male screw portion of the re-lowering bar 200 is driven by a screw, the following advantages are added.

First, the wedge member 400 is pressed downward by the support member 500 so that the engagement member 300 and the wedge member 400 are fixed at a predetermined position in the through hole 21, The joining member 300 is pulled upward by pulling the joining member 300 and the joining member 300 in the state where the wedge member 400 is supported by the wedge member 400 So that the engaging member 300 and the wedge member 400 can be more firmly fixed at a predetermined position in the through hole 21. [

Secondly, since the re-lowering bar 200 is pressed downward by screw driving to apply the preceding load to the pile 100, the preceding load applying operation can be performed more stably and conveniently.

When the filling material injection hole 312 is formed along the vertical direction in the body portion 310 of the coupling member 300, it is possible to perform the filling operation of the filling material such as mortar through the upper portion of the through hole 21 more stably Is added.

As an example of the wedge member 400 for firmly fixing the joining member 300 to the inner surface of the through hole 21, the following two cases will be exemplified.

First, a plurality of pieces main body parts 410 formed so as to gradually reduce the width of the inner lower surface in comparison with the width of the inner surface upper part and to surround the outer surface of the joint member 300 (Figs. 8 to 11).

This is advantageous in that a plurality of pieces body portions 410 are nipped between the outer surface of the engaging member 300 and the inner surface of the through hole 21 so that a wedge effect is stably obtained as natural intervals are widened.

A trim body portion 430 formed to gradually reduce the width of the inner bottom portion in comparison with the width of the inner surface portion and to surround the outer surface of the engaging member 300 and having a trench portion 431 formed at one side thereof; (Fig. 12).

This ensures a stable wedge effect as the interval of the twisting portion 431 widens when the trim body portion 430 is pinched between the outer surface of the engaging member 300 and the inner surface of the through hole 21. [

In any of the above cases, it is preferable that the support member 500 is formed in a tubular structure so as to correspond to the top surface shape of the wedge member 400, in order to stably support the wedge member.

It is preferable to increase the frictional force with the inside of the through hole 21 by forming the concave / convex portion 420 on the outer surface of the engraving main body portion 410 or the trim main body portion 430.

The filler material transfer grooves 411 are formed on the outer surfaces of the engraving main body portion 410 or the main body portion 430 along the vertical direction and the concave and convex portions 420 are formed on both sides of the filler material transfer grooves 411 along the circumferential direction The filling material injected downward through the filling material injection hole 312 of the coupling member 300 is moved upward along the filling material moving groove 411 while the groove portion 421 is moved upward, So that the filler is filled in the outer surface of the wedge member 400 without fail.

The upper end of the filler material transfer groove 411 is closed, and when the lower end is opened, the stable filling effect described above can be further increased.

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.

20: base bottom plate 21: through hole
100: pile 200:
300: coupling member 310: body portion
311: installation hole 312: filler injection hole
400: wedge member 410:
411: filler moving groove 420: concave / convex portion
421: groove portion 430:
431: Twisted part 500: Support member

Claims (11)

delete delete A pile 100 buried in the ground through a through hole 21 of a foundation bottom plate 20 of the structure;
(200) installed to apply a preceding load to the pile (100);
An engaging member 300 installed in the through hole 21 to cover the contact portions of the pile 100 and the rearsubstance 200;
A wedge member 400 provided between the engaging member 300 and the through hole 21 so that the engaging member 300 is closely contacted with the through hole 21;
And a support member (500) provided inside the through hole (21) to support the wedge member (400) downward,
A male screw portion is formed on the outer circumference of the re-
The engaging member (300)
An installation hole 311 is formed along the vertical direction so that the upper end of the pile 100 and the lower end of the rearsed bar 200 are inserted and the width of the lower portion of the outer surface is gradually enlarged A tubular body 310;
And a female screw portion formed on the inner circumference of the mounting hole 311 so that the male screw portion of the re-lowering bar 200 is threaded,
And a filler injection hole (312) is formed in the body (310) along the vertical direction. delete A pile 100 buried in the ground through a through hole 21 of a foundation bottom plate 20 of the structure;
(200) installed to apply a preceding load to the pile (100);
An engaging member 300 installed in the through hole 21 to cover the contact portions of the pile 100 and the rearsubstance 200;
A wedge member 400 provided between the engaging member 300 and the through hole 21 so that the engaging member 300 is closely contacted with the through hole 21;
And a support member (500) provided inside the through hole (21) to support the wedge member (400) downward,
A male screw portion is formed on the outer circumference of the re-
The engaging member (300)
An installation hole 311 is formed along the vertical direction so that the upper end of the pile 100 and the lower end of the rearsed bar 200 are inserted and the width of the lower portion of the outer surface is gradually enlarged A tubular body 310;
And a female screw portion formed on the inner circumference of the mounting hole 311 so that the male screw portion of the re-lowering bar 200 is threaded,
The wedge member 400 includes a plurality of engraved body portions 410 formed to gradually reduce a width of an inner lower portion of the wedge member 400 as compared to a width of an upper portion of the inner surface and to surround the outer surface of the engaging member 300 and,
Wherein the support member (500) is formed in a tubular structure to correspond to a top surface shape of the wedge member (400). delete A pile 100 buried in the ground through a through hole 21 of a foundation bottom plate 20 of the structure;
(200) installed to apply a preceding load to the pile (100);
An engaging member 300 installed in the through hole 21 to cover the contact portions of the pile 100 and the rearsubstance 200;
A wedge member 400 provided between the engaging member 300 and the through hole 21 so that the engaging member 300 is closely contacted with the through hole 21;
And a support member (500) provided inside the through hole (21) to support the wedge member (400) downward,
A male screw portion is formed on the outer circumference of the re-
The engaging member (300)
An installation hole 311 is formed along the vertical direction so that the upper end of the pile 100 and the lower end of the rearsed bar 200 are inserted and the width of the lower portion of the outer surface is gradually enlarged A tubular body 310;
And a female screw portion formed on the inner circumference of the mounting hole 311 so that the male screw portion of the re-lowering bar 200 is threaded,
The wedge member 400 includes a plurality of engraved body portions 410 formed to gradually reduce a width of an inner lower portion of the wedge member 400 as compared to a width of an upper portion of the inner surface and to surround the outer surface of the engaging member 300 and,
The concave and convex portions 420 are formed on the outer surface of the piece body 410,
On the outer surface of the piece body 410, a filler moving groove 411 is formed along the vertical direction,
Wherein the protrusions (420) include grooves (421) formed along the circumferential direction on both sides of the filler moving grooves (411). 8. The method of claim 7,
Wherein the upper end of the filler moving groove (411) is closed and the lower end thereof is opened. The method of claim 3,
The wedge member (400)
A trim main body 430 formed so as to gradually reduce a width of an inner bottom relative to a width of an upper surface of the inner surface and having a trench 431 formed at one side thereof to surround the outer surface of the coupling member 300;
Wherein the pile load bearing device is a pile load bearing device. A preceding load carrying method using a preceding load carrying device of a pile according to any one of claims 3, 5, 7 and 8,
Forming a through hole (21) in the base bottom plate (20) of the structure;
Piercing the lower ground of the through hole (21), inserting the pile (100), and injecting grout to form a pile foundation;
(200), a coupling member (300), and a wedge member (400) in the through hole (21);
Pressing the wedge member 400 downward by the support member 500 to fix the joining member 300 and the wedge member 400 to a predetermined position inside the through hole 21;
Pressing the remainder rod (200) downward to apply a preceding load to the pile (100);
Filling the inside of the through hole (21) with a filler;
Wherein the pile is loaded with a load. A preceding load carrying method using a preceding load carrying device of a pile according to any one of claims 3, 5, 7 and 8,
Forming a through hole (21) in the base bottom plate (20) of the structure;
Piercing the lower ground of the through hole (21), inserting the pile (100), and injecting grout to form a pile foundation;
(200), a coupling member (300), and a wedge member (400) in the through hole (21);
Pressing the wedge member 400 downward by the support member 500 to fix the joining member 300 and the wedge member 400 to a predetermined position inside the through hole 21;
The joining member 300 is pulled upward by pulling the joining member 300 and the joining member 300 in a state where the wedge member 400 is supported by the support member 500 downward, (400);
Applying the preceding load to the pile (100) by pressing the remainder rod (200) downward by screw driving;
Filling the inside of the through hole (21) with a filler;
Wherein the pile is loaded with a load.

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