KR20170015783A - Pre-loading apparatus for pile and pre-loading method using the same - Google Patents

Abstract

According to the present invention, a preloading apparatus (200) for a pile comprises: a main pipe (210) buried in an additional foundation bottom (21) and provided with an installation hole (211) formed therein, into which an upper end of a pile (100) is inserted; a stopping member (250) protruding inwards from an inner surface of the main pipe (210) and having a stopping unit (251) of a groove or a hole structure formed in a deep portion thereof; a bearing plate (260) installed to be supported by an upper end of the main pipe (210) and an upper surface of the additional foundation bottom (21), and provided with a through hole (262) formed in a deep portion thereof and a mounting unit (261) of a groove or a hole structure formed on an inner edge thereof; a mounting member (280) installed to mount both ends thereof on the stopping unit (251) and the mounting unit (261); a loading unit (230) mounted on an upper portion of the bearing plate (260); and a loading bar (240) installed on the loading unit (230) to press the upper end of the pile (100). When extending an existing structure, a foundation structure can be stably reinforced.

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.

A method of installing an additional base bottom plate 21 by using a reinforcing material such as an anchor 22 or the like and installing an additional pile 10a at the lower portion of the base bottom plate 20 of the existing structure 1 (Figs. 1 and 2).

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-described problems, the present invention provides a pneumatic tire comprising: a main pipe (210) embedded in an additional base bottom plate (21) and having an installation hole (211) formed therein for inserting an upper end of a pile (100); An engaging member 250 protruding inwardly from an inner surface of the main pipe 210 and having a recess 251 having a groove or a hole in a deep portion thereof; A through hole 262 is formed in the core portion and an engaging portion 261 of a groove or a hole structure is formed in the inner edge of the through hole 262. The through hole 262 is formed in the center portion of the main pipe 210 and the upper surface of the additional base bottom plate 21, A pressure plate 260 formed on the base plate 260; An engaging member 280 provided at both ends of the engaging portion 251 and the engaging portion 261 to engage with each other; A lower load member 230 coupled to an upper portion of the pressure plate 260; And a reinser bar 240 installed at the lower portion 230 of the load member and pressing the upper end of the pile 100. The pile loader 200 shown in FIG.

A support member 270 is coupled to the upper portion of the support plate 260 so that the lower portion of the load member 230 and the support plate 260 are separated from each other and an injection unit for injecting the filler M is formed. It is preferable that the lower portion 230 of the load member is coupled to the upper portion of the member 270.

The support member 270 includes a support portion 271 supporting the lower portion 230 of the load member; A leg portion 272 extending downward from an edge of the receiving portion 271; And an extension portion 273 extending outward from a lower end of the leg portion 272. Coupling holes 274 and 263 are formed at the edges of the extension portion 273 and the pressure plate 260, It is preferable to screw them together.

The engaging member 280 includes a rod-shaped body 281; An upper head portion 282 formed on the upper portion of the body portion 281 so as to be coupled to the coupling portion 261 and to be supported on the upper side; And a lower head portion 283 formed at a lower portion of the body portion 281 so as to be coupled to the engaging portion 251 and to be supported downward.

It is preferable that the engaging portion 251 has a groove structure and the engaging portion 261 has a hole structure.

It is preferable that a fixing member 212 is formed on the outer surface of the main pipe 210 so as to enhance the connection with the additional base plate 21.

It is preferable that the engaging member 250 and the fixing member 212 are integrally formed through the main pipe 210.

The present invention relates to a method for predicting load of a pile using a preceding load device (200), wherein a lower ground adjacent to the existing bottom plate (20) is punctured and the pile (100) Forming a foundation; Installing the main pipe (210) so that the upper end of the pile (100) is positioned in the installation hole (211) of the main pipe (210); Forming the additional base bottom plate (21) by pouring concrete so that the main pipe (210) is embedded and integrated with the existing bottom bottom plate (20); The coupling member 280, the lower member 230 and the lower member 240 are installed on the main pipe 210 and the lower member 230 Applying a preceding load to the pile (100); And a filling step of filling the inside of the installation hole 211 with a filler M. The present invention has been made in view of the above problems.

The present invention relates to a method for predetermining load of a pile using a preceding load device 200. The method includes installing the main pipe 210 and placing the concrete pipe 210 so that the main pipe 210 is embedded, 21); The bottom of the installation hole 211 of the main pipe 210 is pierced and the pile 100 is inserted and grout is injected to form a pile base so that the upper end of the pile 100 is connected to the main pipe 210. [ (211) of the main body (210); The coupling member 280, the lower member 230 and the lower member 240 are installed on the main pipe 210 and the lower member 230 Applying a preceding load to the pile (100); And a filling step of filling the inside of the installation hole 211 with a filler M. The present invention has been made in view of the above problems.

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 supporting member;
8 is a perspective view of a pressure plate.
9 is an exploded perspective view of the main pipe.
10 is a perspective view of a coupling 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 pile prior loading device 200 according to the present invention is basically embedded in the additional base bottom plate 21, A main pipe 210 formed with a main body 211; An engaging member 250 protruding inwardly from an inner surface of the main pipe 210 and having a recess 251 having a groove or a hole in the core part; A through hole 262 is formed in the core portion and an engaging portion 261 having a groove or a hole structure is formed in the inner edge of the main pipe 210 and the upper surface of the additional base bottom plate 21 A pressure plate 260; An engaging member 280 provided at both ends to engage with the engaging portion 251 and the engaging portion 261; A lower load member 230 coupled to an upper portion of the pressure plate 260; And a remainder rod 240 installed at the lower portion 230 of the load member to press the upper end of the pile 100.

The preceding load method using the pile preceding load device 200 according to the present invention is performed by the following process.

The lower ground adjacent to the existing bottom plate 20 is pierced, the pile 100 is inserted, and grout is injected to form a pile foundation (FIG. 3).

The main pipe 210 is installed so that the upper end of the pile 100 is positioned in the installation hole 211 of the main pipe 210 and the main pipe 210 is embedded, Concrete is laid to form an additional base bottom plate 21 (Fig. 4).

A coupling member 280, a lower load member 230 and a lower member 240 are installed on the main pipe 210 and the load member 230 is pushed by the load member 230 100, the interior of the installation hole 211 is filled with a filler M such as mortar.

The lower portion 230 of the load member may be a hydraulic device or the like insofar as it has a structure capable of loading the preceding load on the pile 100 through the re-

The main pipe 210, the pressure plate 260, and the like are formed of a rigid material such as a steel so as to withstand the stress generated when the load of the wire rod is loaded.

That is, according to the present invention, 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 5).

This is characterized not by installing the pile 100 on the base bottom plate 20 but by pressing the pile 100 downward so that a vertical displacement is formed between the pile 100 and the ground.

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.

The upper end of the main pipe 210 should not protrude above the upper surface of the additional base bottom plate 21. In such a structure, the lower portion 230 of the load member such as a hydraulic device may be provided It is difficult to securely fix it on the upper portion of the main pipe 210.

However, in the case of adopting the structure according to the present invention, the above-mentioned problem can be solved by connecting the lower portion of the main pipe 210 to the upper portion of the main pipe 210 and installing the lower portion 230 of the load member thereon.

The upper and lower ends of the coupling member 280 are coupled to the coupling portion 261 of the support plate 260 and the coupling portion 251 of the coupling member 250 of the main pipe 210, It is possible to prevent the lower portion 230 of the load member 230 from being separated upward when the lower portion 230 of the load member 230 is pressed against the pile 100.

This is, of course, based on the assumption that the load member 230 is firmly coupled to the support plate 260.

The support member 270 is coupled to the upper portion of the support plate 260 so that the lower portion of the load member 230 and the support plate 260 are separated from each other and the injection portion for injecting the filler M is formed. When the lower portion 230 of the load member 230 is joined to the upper portion of the upper portion 270, the filling material M can be easily injected after completion of the pressing.

That is, after the completion of the pressing of the pile 100, the inner installation hole 211 of the main pipe 210 must be filled with the filler, and the upper support member 270 is formed with the injection portion for injecting the filler M (The space between the legs 272, etc.), the charging operation can be performed easily and stably (Figs. 6 and 7).

To this end, the upper support member 270 includes a support portion 271 supporting the lower portion 230 of the load member; A leg portion 272 extending downward from an edge of the receiving portion 271; And an extension portion 273 extending outward from the lower end of the leg portion 272. Engagement holes 274 and 263 are formed at the edges of the extension portion 273 and the pressure plate 260, It is preferable to adopt a structure in which a screw is engaged.

The upper and lower ends of the engaging member 280 are engaged with the engaging portion 251 formed at the core portion of the engaging member 250 in a groove or hole structure and the engaging portion 261 formed at the inner edge of the supporting plate 260 with a groove or hole structure And supported in the vertical direction.

To this end, the upper engagement member 280 includes a rod-shaped body portion 281; An upper head portion 282 formed on the upper portion of the body portion 281 to be coupled to the coupling portion 261 and to be supported on the upper side; And a lower head portion 283 formed at a lower portion of the body portion 281 so as to be coupled to the engaging portion 251 and to be supported downward (FIG. 10).

Particularly when the engaging portion 251 of the engaging member 250 of the main pipe 210 has a groove structure and the engaging portion 261 of the pressure plate 260 has a hole structure, The upper end of the body portion 281 of the engaging member 280 is passed through the engaging portion 261 of the upper supporting plate 260 so that the upper end of the nut structure It is possible to secure the excellent workability and the structural stability.

When the fixing portion 212 is protruded from the outer surface of the main pipe 210 by means of a rod, ring, or plate, the coupling with the additional base bottom plate 21 can be strengthened (FIG. 9).

Further, when the upper engaging member 250 and the fixing member 212 are formed as an integral structure passing through the main pipe 210, the above-described effects can be more stably obtained.

The preceding load carrying device 200 including the main pipe 210 and the additional bottom bottom plate 21 are installed after the installation of the pile 100. In some cases, the preceding load carrying device 200 and / The additional base bottom plate 21 may be installed first and then the pile 100 may be installed.

That is, a step of installing the main pipe 210 and forming the additional base bottom plate 21 by pouring concrete so that the main pipe 210 is embedded; The bottom of the installation hole 211 of the main pipe 210 is pierced and the pile 100 is inserted and grout is injected to form a pile base so that the upper end of the pile 100 is connected to the main pipe 210 Positioning it in the installation hole 211; A coupling member 280, a lower load member 230 and a lower member 240 are installed on the main pipe 210 and the load member 230 is pushed by the load member 230 0.0 > 100) < / RTI > And a filling step of filling the inside of the installation hole 211 with the filler M. The method of loading the pile ahead may be implemented.

The main pipe 210 may be embedded in the base bottom plate 21 even after the filling of the filler material so that the pressure plate 260, the coupling member 280, the lower load member 230, It is preferable that all or a part of the remainder rod 270 and the remainder rod 240 are recovered and reused.

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: existing base plate 21: additional base plate
100: pile 200: preceding load device
210: main pipe 211: installation hole
212: fixing part 230: load material lower part
233: lower side support part 240:
250: engaging member 251:
260: a pressure plate 261:
262: Through hole 263: Coupling hole
270: support member 271:
272: leg portion 273: extension portion
274: coupling hole 280: coupling member
281: body portion 282: upper head portion
283:

Claims (9)

A main pipe 210 embedded in the additional foundation bottom plate 21 and having an installation hole 211 formed therein to insert the upper end of the pile 100;
An engaging member 250 protruding inwardly from an inner surface of the main pipe 210 and having a recess 251 having a groove or a hole in a deep portion thereof;
A through hole 262 is formed in the core portion and an engaging portion 261 of a groove or a hole structure is formed in the inner edge of the through hole 262. The through hole 262 is formed in the center portion of the main pipe 210 and the upper surface of the additional base bottom plate 21, A pressure plate 260 formed on the base plate 260;
An engaging member 280 provided at both ends of the engaging portion 251 and the engaging portion 261 to engage with each other;
A lower load member 230 coupled to an upper portion of the pressure plate 260;
(240) installed at the lower portion of the load member (230) to press the upper end of the pile (100)
(200). ≪ / RTI > The method according to claim 1,
A support member 270 is coupled to the upper portion of the support plate 270 so that the lower portion of the load member 230 and the support plate 260 are separated from each other and an injection unit for injecting the filler M is formed. And the load member (230) is coupled to an upper portion of the member (270). 3. The method of claim 2,
The support member (270)
A support portion (271) supporting the lower portion of the load member (230);
A leg portion 272 extending downward from an edge of the receiving portion 271;
And an extension portion (273) extending outward from a lower end of the leg portion (272)
Wherein a coupling hole (274, 263) is formed at an edge of the extension part (273) and the pressure plate (260), respectively, and is screwed by a bolt (201). The method according to claim 1,
The engaging member 280,
A rod-shaped body portion 281;
An upper head portion 282 formed on the upper portion of the body portion 281 so as to be coupled to the coupling portion 261 and to be supported on the upper side;
A lower head portion 283 formed at a lower portion of the body portion 281 so as to be coupled to the engaging portion 251 and supported downward;
(200). ≪ / RTI > 5. The method of claim 4,
The apparatus according to any one of claims 1 to 5, wherein the locking part (251) has a groove structure and the coupling part (261) has a hole structure. The method according to claim 1,
Wherein a fixing member (212) is protruded from an outer surface of the main pipe (210) so as to enhance coupling with the additional base plate (21). The method according to claim 6,
The apparatus according to claim 1, wherein the engaging member (250) and the fixing member (212) are integrally formed through the main pipe (210). A preceding load carrying method using the pile preceding load device (200) according to any one of claims 1 to 7,
Drilling the lower ground adjacent to the existing bottom plate 20, injecting the pile 100 and forming grooves to form a pile foundation;
Installing the main pipe (210) so that the upper end of the pile (100) is positioned in the installation hole (211) of the main pipe (210);
Forming the additional base bottom plate (21) by pouring concrete so that the main pipe (210) is embedded and integrated with the existing bottom bottom plate (20);
The coupling member 280, the lower member 230 and the lower member 240 are installed on the main pipe 210 and the lower member 230 Applying a preceding load to the pile (100);
A filling step of filling the inside of the installation hole 211 with the filler M;
Wherein the pile is loaded with a load. A preceding load carrying method using the pile preceding load device (200) according to any one of claims 1 to 7,
Installing the main pipe (210) and forming the additional base bottom plate (21) by pouring concrete so that the main pipe (210) is embedded;
The bottom of the installation hole 211 of the main pipe 210 is pierced and the pile 100 is inserted and grout is injected to form a pile base so that the upper end of the pile 100 is connected to the main pipe 210. [ (211) of the main body (210);
The coupling member 280, the lower member 230 and the lower member 240 are installed on the main pipe 210 and the lower member 230 Applying a preceding load to the pile (100);
A filling step of filling the inside of the installation hole 211 with the filler M;
Wherein the pile is loaded with a load.

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