KR101525214B1 - Construction method for pile - Google Patents

Abstract

The present invention relates to a protruding engaging member (100) protruding upward to fit into a lower trough of a tubular pile body (10); And an extension shoe forming member (200) coupled to a lower portion of the projecting engagement member (100) so as to form an extension shoe having an outer diameter larger than the outer diameter of the pile, It is possible to save labor and time required for mounting the end shoe and prevent the possibility of damage to the shoe during construction.

Description

[0001] CONSTRUCTION METHOD FOR PILE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a civil engineering field, and more particularly to a structure of a pile.

The construction method of the pile to form the foundation of the structure on the ground can be roughly classified into a method of piling the factory-produced pile by hovering and a method of installing the concrete in the perforation hole and casting concrete.

In the former method, the pile is made of steel pipe or PHC pile which has a hollow tube structure with upper and lower ends. When the pile is driven, the soil is introduced through the lower part of the lower part. Because there is no longer any inflow of soil (this is expressed as 'the floor is blocked' in the field), it can form a stable foundation structure.

Such a piling method has an advantage that it is excellent in convenience of construction and stability of structure, but it has disadvantage that noises caused by hammering are largely generated at the time of construction.

The latter method of putting on-site has advantages and disadvantages.

Recently, a method of installing a shoe having a larger diameter than the diameter of the pile at the lower end of the pile has been developed. This is because the area of the shoe (tip) of the pile is widened Therefore, it is possible to increase the stability of the foundation structure, thereby reducing the number of piles and thus reducing the construction cost.

However, in such a conventional method, research on the structure for mounting the end extension shoe to the lower end of the pile is insufficient and the following problems have been pointed out.

First, it is inconvenient to transport and store the equipment when it moves to the site by attaching the end extension shoe to the bottom of the pile in the factory in advance.

Second, in the case where the end extension shoe is mounted by welding or the like in the field, it takes a lot of time and labor for the operation.

Third, it is easy for the expansion shoe installed by standing up the pile by the equipment for construction to be broken.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a stiffening structure for a pile which is capable of reducing the time and effort required for mounting the end shoe, It is for that purpose.

In order to solve the above-described problems, the present invention provides a protruding engaging member (100) protruding upward to fit into a lower trough of a tubular pile body (10); And an expansion shoe forming member (200) coupled to a lower portion of the projecting engagement member (100) to form an expansion shoe having an outer diameter larger than the outer diameter of the pile do.

It is preferable that the projecting engaging member 100 is formed such that the width of a portion of the projecting engaging member 100 which engages with the inner wall of the lower end of the pile body 10 gradually decreases toward the upper side and the inner side.

The protrusion coupling member 100 may have a curved portion coupled to a lower end inner wall of the pile body 10.

The projecting engagement member 100 is preferably a plate-like structure provided in the transverse direction.

Preferably, the projecting engagement member 100 has a semi-circular cross-sectional structure.

It is preferable that the pair of projecting engagement members 100 are mutually orthogonal.

The extension shoe forming member 200 preferably includes a plate member 200a having an outer diameter larger than the outer diameter of the pile.

The extension shoe forming member 200 includes a support member 210 coupled to the lower end of the lower end of the projecting engagement member 100 and having a curved portion at the core portion. An opening and closing plate 220 installed to open and close the lower end of the support member 210; A central support member hinge part 211 formed at the front end of the bottom surface of the support member 210; A central connecting member (231) having one end connected to the central supporting member hinge portion (211); A central opening / closing plate hinge portion 221 formed at a center portion of the opening / closing plate 220 to which the other end of the central connecting member 231 is connected; A pair of side support member hinge parts 212 formed on both sides of the bottom of the support member 210; A pair of side connecting members 232 each having one end connected to the pair of side support member hinges 212; And a pair of both side opening and closing plate hinge parts 222 connected to the other ends of the pair of side connecting members 232 and formed behind the central opening and closing plate hinge parts 221 of the opening and closing plate 220 And the opening and closing plate 220 is opened and closed by driving the hinge of the central connecting member 231 and the pair of both side connecting members 232.

The central opening / closing plate hinge portion 221 and the pair of both opening and closing plate hinge portions 222 are opened and closed in a state in which the front end of the opening and closing plate 220 faces downward by opening of the opening and closing plate 220, It is preferable that the plate 220 is formed at a position where the front end of the plate 220 is inclined forward.

It is preferable that the central opening / closing plate hinge portion 221 is positioned inside the lower end opening of the support member 210 in a state where the opening and closing plate 220 is closed.

It is preferable that a center hinge insert hole 223 is formed in the opening and closing plate 220 so that the center support member hinge portion 211 is inserted while the open / close board 220 is closed.

The central connecting member 231 includes a head portion 2311 having one end connected to the central supporting member hinge portion 211; An inclined portion 2312 having one end connected to the other end of the head portion 2311 and formed so as to be inclined upward; And a tail portion 2313 having one end connected to the other end of the inclined portion 2312 and inclined downward and the other end connected to the central opening / closing plate hinge portion 221. The opening / closing plate 220 The head portion 2311 and a portion of the slope portion 2312 may be formed to be inserted into the center hinge portion insertion hole 223. In this case,

It is preferable that a pair of both side hinge portion insertion holes 224 are formed in the opening and closing plate 220 so that the pair of side support member hinge portions 212 are inserted while the opening and closing plate 220 is closed Do.

The central connecting member 231 and the pair of both side connecting members 232 are connected to the opening and closing plate 220 when the rear end of the opening and closing plate 220 is driven upward by opening the opening and closing plate 220, And the lower end of the support member 210 may not be in contact with each other.

The present invention proposes a pile reinforcement structure that can save labor and time required for mounting the end shoe and prevent the possibility of breakage of the extended shoe during construction.

1 shows an embodiment of the present invention,
1 is a use state diagram of the first embodiment;
2 is a perspective view of the first embodiment;
3 is a side view of the second embodiment;
4 is a side view of the third embodiment.
5 is a first use state diagram of the fourth embodiment;
6 is a second use state diagram of the fourth embodiment;
7 is a sectional view of the fifth embodiment;
8 to 10 are use state diagrams of the sixth embodiment.

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

1, a reinforcing structure A of a pile according to the present invention basically comprises a projecting engaging member 100 protruding upward to fit into a lower end of a tubular pile body 10, ; And an extension shoe forming member 200 coupled to a lower portion of the projecting engagement member 100 to form an extension shoe having an outer diameter larger than the outer diameter of the pile.

That is, instead of adopting a method of welding the extension shoe to the lower end of the pile by welding or the like as in the prior art, the protruding engagement member 100 formed on the reinforcing structure is inserted into the lower end of the pile body 10, So as to be mounted on the base.

Accordingly, the reinforcing structure (A) is installed near the perforation hole in the field, and the pile (10) is transported by the equipment and is simply placed on the reinforcing structure (A) (Fig. 1).

Therefore, it is possible to reduce the labor and time required for mounting the end shoe as in the prior art, and by inserting the reinforcing structure A into the perforation hole by lifting the pile combined with the reinforcing structure A, There is no fear of damage of the shoe.

It is not necessary to achieve a very strong coupling since the projecting engaging member 100 is engaged by friction with the lower end inner wall of the pile body 10 so that the lower end of the pile reaches the bottom of the hole.

After reaching the bottom of the perforation hole, the pile body 10 and the reinforcing structure A are subjected to forces in the direction of joining by the hitch.

In order to make the frictional coupling relatively firm and easily perform the coupling operation (the operation of raising the pile by the equipment and lowering it to a predetermined position) between the projecting engagement member 100 and the lower end of the pile body 10 , It is preferable to adopt a structure in which the width of the portion to be coupled to the lower end inner wall of the pile body 10 is gradually narrowed (inclined) toward the upper side and the inner side (Figs.

Hereinafter, an embodiment related to the structure of the projecting engagement member 100 will be described.

When the portion of the projecting coupling member 100 which is coupled to the lower end inner wall of the pile body 10 is formed to be curved, the above-mentioned effect can be further obtained (Figs.

When the projecting engagement member 100 has a plate-like structure provided with a transverse direction, it is possible to obtain an efficient structure that achieves rigid coupling while reducing the material.

In the case where the projecting engagement member 100 has a semicircular cross-sectional structure, even if the lower end of the pile does not reach the correct position at the time of the pile joining operation, the joining position can be easily found by sliding, (Fig. 4).

It is more preferable in terms of structural stability and ease of operation that the projecting engagement members 100 are provided so as to be mutually orthogonal so as to take a planar "+" -shaped structure.

Hereinafter, an embodiment of the structure of the extension shoe forming member 200 will be described.

Basically, the extension shoe forming member 200 has a configuration including a plate-shaped member 200a having an outer diameter larger than the outer diameter of the pile, thereby obtaining a structure of a general shoe extension shaft (Figs. 1 to 4).

Further, the extension shoe forming member 200 may have an opening and closing structure as shown in Fig. 5 and the following.

That is, the extension shoe forming member 200 is coupled to the lower end of the lower end of the projecting engaging member 100, and further includes a support member 210 having a curved portion at the core portion. An opening / closing plate 220 installed to open / close the lower end of the support member 210; A center support member hinge portion 211 formed at the front end of the bottom surface of the support member 210; A central connecting member 231 connected to the central supporting member hinge portion 211 at one end; A central opening / closing plate hinge portion 221 formed at the center of the opening / closing plate 220 and having the other end of the central connecting member 231 connected thereto; A pair of side support member hinge parts 212 formed on both sides of the bottom of the support member 210; A pair of both side connecting members 232 connected to the pair of side support member hinge portions 212 at one end; And a pair of both side opening and closing plate hinge portions 222 connected to the other ends of the pair of side connecting members 232 and formed behind the central opening and closing plate hinge portions 221 of the opening and closing plate 220, The opening and closing plate 220 can be opened and closed by the hinge driving of the central connecting member 231 and the pair of both side connecting members 232. [

Due to such a hinge structure, the open / close operation of the open / close board 220 is performed by the hinge drive of the central connecting member 231 and the pair of both side connecting members 232.

That is, when the pile body 10 is inserted into the perforation hole, the opening and closing plate 220 is opened (Fig. 8), and when the opening and closing plate 220 reaches the bottom of the hole, (Figs. 9 and 10).

This has the following effects.

First, since the opening and closing plate 220 is in the open state during the insertion operation of the pile body 10, the pile floats due to buoyancy of grout or other fluid present in the perforation hole and is not disturbed by the insertion operation, The closing plate 220 is closed, so that the bottom is forcibly closed, so that the leading end supporting force can be secured with only a part of the horses.

Therefore, even when the pile according to the present invention is applied to the method of the line-piercing part hovering method, it is possible to secure a sufficient end bearing capacity (the bottom can be surely clogged) to achieve a stable foundation structure and to reduce the construction cost It is effective.

Second, since the open / close plate 220 opens and closes the bottom of the pile in a state where the open / close plate 220 maintains a circular shape, the problem of the problem due to the deformation of the open /

Third, when viewed from the side, since the opening / closing drive structure by the four hinges is adopted, the free shape can be deformed, and there is little fear of breakage in the work of lifting up from the mount position or putting it down near the perforation hole.

The support member 210 constituting the extension shoe forming member 200 is configured to be coupled to the lower end outer end of the projecting engagement member 100 and to have a trim portion at the core portion, Which is preferable in terms of structural stability with respect to the structure to be described later.

The opening / closing plate 220 is inserted into the perforation hole with its bottom hanged down by its own weight. In order to smoothly perform upward driving (closing driving) as the lower end of the opening / closing plate 220 touches the bottom surface of the perforation hole , It is necessary to insert the front end of the opening / closing plate 220 into the perforation hole with the front end inclined forward (Figs. 8 and 9).

The central opening and closing plate hinge portion 221 and the pair of both opening and closing plate hinge portions 222 are formed in a state in which the front end of the opening and closing plate 220 faces downward by opening of the opening and closing plate 220, (See FIGS. 5 and 6) so that the front end of the first arm 220 is inclined forward.

The central opening / closing plate hinge portion 221 is formed at the core of the opening and closing plate 220. The central opening and closing plate hinge portion 221 is formed so as to be positioned inside the twisting portion of the supporting member 210 in a state that the opening and closing plate 220 is closed. (Figs. 5 and 6).

The center support member hinge portion 211 may protrude downward from the pile body 10. In this case, in order to avoid interference between the center support member hinge portion 211 and the opening / closing plate 220, It is preferable that the center hinge portion insertion hole 223 is formed in the opening and closing plate 220 so that the center support member hinge portion 211 is inserted in a state where the center support member hinge portion 220 is closed.

Further, when the present invention is applied to the above-described concrete pile, there is a fear that the concrete pile body 10 and the central connecting member 231 may come into contact with each other while the opening and closing plate 220 is closed.

In order to prevent this, the central connecting member 231 includes a head portion 2311 having one end connected to the central supporting member hinge portion 211; An inclined portion 2312 having one end connected to the other end of the head portion 2311 and formed so as to be inclined upward; And a tail portion 2313 which is connected to the other end of the inclined portion 2312 at one end and is inclined downwardly and whose other end is connected to the central opening / closing plate hinge portion 221 7).

In this case, when the opening / closing plate 220 is closed, a part of the head portion 2311 and the inclined portion 2312 are inserted into the central hinge portion insertion hole 223, thereby avoiding interference with the concrete pile body 10 .

The pair of side support member hinge parts 212 are mounted on the outer side of the support member 210 to avoid interference with other members. In order to completely prevent the occurrence of any contact with the other members, It is preferable that a pair of both side hinge portion insertion holes 224 are formed on the opening and closing plate 220 so that the pair of side support member hinge portions 212 are inserted in a state where the hinge portions 220 are closed 5 and 6).

The center linking member 231 and the pair of both side linking members 232 serve to open and close the opening and closing plate 220 by being coupled to the hinges described above. When the rear end of the opening / closing plate 220 is driven upward by the opening of the opening / closing plate 220, the rear end of the opening / closing plate 220 and the lower end of the main body 10 are not in contact with each other (Figs. 5 and 6).

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.

A: Reinforcing structure of pile 10: Pile main body
100: projecting engagement member 200: extension shoe forming member
200a: Plate member 210: Support member
211: central support member hinge portion 212: both side support member hinge portion
220: opening / closing plate 221: central opening / closing plate hinge portion
222: both side open / close board hinge portions 223: central hinge portion insertion hole
224: Both side hinge portion insertion holes 231:
2311: head portion 2312: inclined portion
2313: tail portion 232: both side connecting members

Claims (7)

A projecting engaging member (100) protruding upwardly to fit into a lower end of the tubular pile body (10);
And an extension shoe forming member (200) coupled to a lower portion of the projecting engagement member (100) so as to form an extension shoe having an outer diameter larger than an outer diameter of the pile body (10)
The method of constructing a pile using a reinforcing structure (A) of a pile according to claim 1, wherein the projecting engagement member (100) is formed such that a width of a portion of the projecting engagement member (100) coupled to a lower end inner wall of the pile body As a result,
Forming a perforation hole in the ground;
Placing the reinforcing structure (A) near the perforation hole;
(100) of the reinforcing structure (A) to the lower end of the pile main body (10) by transporting the pile body (10) by the equipment and laying it on the reinforcing structure ;
And a step of lifting the pile body 10 coupled with the reinforcing structure A back by equipment and inserting the pile body 10 into the perforation hole,
Wherein the expansion shoe forming member (200) comprises a plate member (200a) having an outer diameter larger than the outer diameter of the pile. The method according to claim 1,
Wherein the projecting engaging member (100) is formed so that a portion of the projecting engaging member (100) coupled to a lower end inner wall of the pile body (10) is curved. The method according to claim 1,
Wherein the projecting engagement member (100) is a plate-like structure provided in a transverse direction. The method of claim 3,
Wherein the projecting engagement member (100) has a semicircular cross-sectional structure. The method of claim 3,
Wherein the projecting engagement members (100) are installed such that a pair of the projecting engagement members (100) are mutually orthogonal. delete delete

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