KR101441929B1 - Foundation method for complex pile - Google Patents

Abstract

The present invention relates to a method of manufacturing a small file forming unit (100) and a large file forming unit (200) Spraying a solidifying agent from a solidifying agent jetting port formed in the small-sized filament forming portion; (10) is formed on the soft layer (a) of the ground, and the small file (10) is formed on the soft layer (a) And the large pile portion 20 is formed on the support layer (b) of the ground. By suggesting the basic construction method for forming the composite pile, it is possible to simultaneously perform the piercing of the ground and the filling of the solidified soil, So that it can be planned.

Description

{FOUNDATION METHOD FOR COMPLEX PILE}

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

A method has been developed in which a pile is drilled and a pile having a mixture of soil and soil strengthening agent is injected into the perforation hole to form a pile.

However, conventionally, a drilling apparatus for drilling the ground and an injection apparatus for injecting solidified soil have been separately developed, and it has been pointed out that the operation is troublesome.

Therefore, there is a desperate need for research on a device capable of performing these operations at the same time.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a perforating apparatus for forming a complex file capable of simultaneously performing perforation of a ground and filling of a solidified soil, The purpose of that is to do.

In order to solve the above-described problems, the present invention provides a washing machine comprising: a main pipe (120) having a top nozzle (121); And a bit 110 formed at a lower end of the center pipe 120 to puncture the ground.

The bit 110 may be formed with a downward injection port 111 of a solidifying agent.

The small file forming part 100 preferably includes a small agitating part 130 formed on the outer periphery of the center pipe 120 so as to agitate the ground.

The small agitating part 130 may be formed only in a lower region of the main pipe 120.

The large-sized file forming part 200 is provided with a through-hole of the small-sized file forming part 100 at the core part and a cylindrical main body 100 provided at a distance from the small- (220); And a plurality of enlarged stirring portions 210 extending laterally of the cylindrical body 220.

It is preferable that the enlarged agitating part 210 has a channel of the soil solidifying agent formed in the core part and an enlarged jetting port 211 of the soil strengthening agent on the outer wall.

It is preferable that the length of the lower enlarged stirring portion 210b is shorter than the upper enlarged stirring portion 210a of the plurality of enlarged stirring portions 210 so that the large file is formed in a conical shape.

The enlarged agitating part 210 is preferably formed with a blade part 212 toward the rotating direction.

The blade portion 212 may be formed to be inclined downward toward the rotation direction.

Preferably, the small file forming part 100 and the large file forming part 200 are installed so as to be rotatable in mutually opposite directions.

The present invention is a foundation method using the perforated apparatus for forming a complex file, wherein the soil is pierced by rotation and excavation of the small file forming unit (100) and the large file forming unit (200) And the small file 10 and the large file 20 are formed by mixing the soil and the soil strengthening agent.

Forming the small file (10) by rotation and excavation of the small file forming part (100); And forming the large file 20 by downward driving and rotating the large file forming unit 200 while the small file forming unit 100 is stopped.

The lower end of the large pile 20 is positioned below the soft layer a or on the upper side of the support layer b when the ground is formed in the order of the soft layer a and the support layer b toward the bottom, The small pile 10 is preferably located on the support layer b.

When the ground is formed in the order of the first soft layer a1, the first support layer b1, the second soft layer a2 and the second support layer b2 in the downward direction, 1 soft layer a1 or the upper portion of the first support layer b1 and the lower end of the small pile 10 is located below the second soft layer a2 or on the upper portion of the second support layer b2 As shown in FIG.

The present invention proposes a perforating apparatus for forming a complex file capable of simultaneously performing perforation of a ground and filling of a solidified soil to improve workability and a basic construction method using the same.

1 shows an embodiment of the present invention,
BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a cross-sectional view of a perforation apparatus for compound file formation
2 is a sectional view of a first embodiment of a pile structure formed by a foundation method;
3 is a perspective view of an enlarged stirring portion;
4 is a sectional view of a second embodiment of a pile structure formed by a foundation method;
5 is a sectional view of a third embodiment of a pile structure formed by a foundation method;

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

1, the perforating apparatus for forming a complex file according to the present invention basically comprises a small file forming unit 100 for forming a small file 10, And a large file forming unit 200 for forming a large large file 20.

The small file forming portion 100 includes a bit portion 110 and a solidifying agent jetting port 121 so as to form the small file 10 by the excavation and agitation of the solidifying agent and the gypsum, Respectively.

The large file forming unit 200 is provided with the enlarged stirring unit 210 so as to form the large file 20 on the outer side of the small file 10 by agitating the solidifying agent and the gypsum, And is provided outside the small file forming portion 100 so as to be vertically movable and rotatable with respect to the small file forming portion 100.

The enlarged agitating unit 210 excavates the outer ground of the small pile 10 formed by the small pile forming unit 100 and injects and agitates the solidifying agent to enlarge the diameter of the small pile 10 So that a large-sized file 20 is formed.

This leads to the following effects.

First, the ground is not formed to have a constant grounding force as a whole, but there are layers (support layers such as a soft layer and a rock layer) having different supporting forces depending on the depth, and the piles 10 and 20 having different cross- So that an efficient structure can be obtained.

Secondly, in order to form the small file 10 at the high degree of severity, it is sufficient to form a perforation hole with a small diameter in the case of low depth (large file portion), so that overload of the perforation equipment can be prevented.

The small-sized file forming part (100) includes a central pipe (120) having a channel of a soil remediation agent formed along the vertical direction in the core part and a solidifying agent jetting port (121) formed on the outer wall; And the bit 110 formed at the lower end of the center pipe 120 to puncture the ground.

Since the soil solidifying agent is injected through the solidifying agent jetting port 121 formed in the central pipe 120 while the ground is punctured by the bit 110, the small pile 10 is formed by mixing the soil and the soil solidifying agent .

Therefore, it is possible to simultaneously perform the piercing of the ground and the formation of the solidified soil by spraying of the solidifying agent, so that the dramatic improvement in the workability can be achieved.

In the case where the lower jet opening 111 of the solidifying agent is formed also in the bit portion 110, the above-mentioned effect can be further obtained.

The central pipe 120 may have an integral structure or may have a structure in which a plurality of component pipes are coupled by a screw coupling structure or the like. In the case of performing drilling operation for high precision, it is preferable to select the latter structure .

In the small-sized file forming part 100, when the small agitating part 130 is formed on the outer periphery of the rotating central pipe 120 so as to agitate the ground, the stabilized generation of the solidified soil is promoted by agitating the injected solidifying agent and the gypsum can do.

The small agitating part 130 may be realized by a bar structure or the like which is specifically formed outwardly on the outer periphery of the central pipe 120.

The small agitating portion 130 may be formed over the entire area of the central pipe 120 but is preferably formed only in the lower region of the central pipe 120 in order to avoid interference with the large pile forming portion 200 .

The large file forming unit 200 includes a cylindrical body 220 having a through hole of the small file forming unit 100 formed at its core and spaced apart from the small file forming unit 100 and vertically driven and rotated ); And a plurality of enlarged stirring portions 210 extending sideways of the cylindrical body 220.

The size of the large file 20 formed on the outer side of the small file 10 (the position of the bottom end) can be adjusted by moving it along the central pipe 120 of the small file forming unit 100.

In order to form the large pile 20, the enlarged agitating portion 210 is formed with a flow path of the soil solidifying agent at the core portion and the enlarged jetting port 211 of the soil solidifying agent is formed at the outer wall, It is desirable to perform the role of

It is preferable that the length of the lower enlarged stirring portion 210b is shorter than that of the upper enlarged stirring portion 210a of the plurality of enlarged stirring portions 210 so that the large file 20 is formed in a conical shape.

When the large-sized pile 20 is formed in a conical shape in this way, there is an effect that a basic structure of the top pile structure can be obtained naturally.

When the blade portion 212 is formed in the enlarged agitating portion 210 in the rotating direction, an effect of further facilitating the drilling operation of the ground is added (FIG. 3).

In the case where the blade portion 212 is inclined downward toward the rotating direction, the excavated soil is not discharged to the upper portion, but is mixed with the soil solidifying agent injected while being located in the perforation hole, (Fig. 3).

The small file forming unit 100 and the large file forming unit 200 may be rotated in the same direction, but it is preferable that the small file forming unit 100 and the large file forming unit 200 can rotate in opposite directions for efficiency of excavation and stirring.

Hereinafter, the basic construction method using the perforation apparatus for forming a complex file according to the present invention will be described.

Basically, the method involves drilling the ground by rotating and excavating the small-sized file forming unit 100 and the large-sized file forming unit 200, and spraying the soil remediation agent to mix the soil and the soil- The small file 10 and the large file 20 are formed.

More specifically, the small file 10 is first formed by the rotation and excavation of the small file forming unit 100, and then the downward driving of the large file forming unit 200 is performed in the state where the small file forming unit 100 is stopped, It is preferable from the viewpoint of efficiency of construction to form the large file 20 by rotation.

When the ground is formed in the order of the soft layer (a) and the support layer (b) in the downward direction, the lower end of the large pile 20 is buried in the lower part of the soft layer (a) or the upper part of the support layer (b) The pile 10 is preferably embedded in the support layer b (Fig. 4).

In this case, since the small file 10 embedded in the support layer b functions to reinforce and replenish the grounding force by the large file 20, the size of the cross section of the large file 20 Can be reduced.

In addition, since the diameter of the perforation hole can be reduced in the perforating operation for the support layer (b) having a high strength and a high degree of strength, overload of the perforating equipment can be prevented.

Here, the soft layer and support layer are relative concepts that can be defined according to the nature of the structure to be constructed on the ground and other site conditions. Generally, strata such as weathering soil and weathered rock are corresponding to the support layer. .

When the ground is formed in the order of the first soft layer a1, the first support layer b1, the second soft layer a2 and the second support layer b2 in the downward direction, the lower end of the large- The lower end of the small pile 10 is buried in the lower part of the soft layer a1 or the upper part of the first support layer b1 and the lower end of the small pile 10 is buried in the lower part of the second soft layer a2 or in the upper part of the second support layer b2 (Fig. 5).

In this case, if there is no small file 10, it is not possible to expect a stable endurance of the large file 20 due to the second soft layer a2. However, in the case of the method according to the present invention, And the second support layer (b2) through the soft layer (a2), whereby excellent structural stability as a whole can be obtained.

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: Small File 20: Large File
100: Small file forming unit 110: Bit unit
111: downward jetting port 120:
121: solidifying nozzle 130: small agitating part
200: large-sized file forming unit 210: enlarged stirring unit
211: enlarged jetting port 212: blade portion
220: cylindrical body a, a1, a2:
b, b1, b2:

Claims (3)

A small pile forming part 100 including a main pipe 120, a small agitating part 130 formed on the outer periphery of the main pipe 120, and a solidifying agent pouring port 121, and a plurality of A large file 20 is formed by using a large file forming unit 200 including an expanding agitator 210 of a large file 20 and a small file 10 is formed below the large file 20 As a result,
Rotating and stirring the small file forming part (100) and the large file forming part (200) in a vertical direction;
Spraying a solidifying agent in the solidifying agent jetting port 121;
Mixing the solidification agent with the gypsum to form the cylindrical small pile 10 and forming the large pile 20 having a cylindrical shape at the top and a conical shape at the bottom,
Characterized in that the large file (20) is formed on the soft layer (a) of the ground and the small file (10) is formed on the support layer (b).
The method according to claim 1,
Wherein the small file portion forming portion (100) and the large file forming portion (200) are vertically movable and rotatable, respectively.
The method according to claim 1,
An enlarged jet opening 211 is formed on the outer wall of the enlarged agitating portion 210,
Wherein the step of spraying the solidifying agent injects the solidifying agent in the enlarged jetting port (211).

Images