KR20160025180A - Helical pile and construction method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a helical file for reinforcing a ground and a method of constructing the helical file, Lt; / RTI >
The helical file of the present invention is for reinforcing the ground by penetrating the ground, the lower file having at least one spiral portion formed on the outer surface of the cylindrical body. An upper file coupled to an upper end of the lower file and having an upper portion opened, a lower portion closed, an inner hollow cylindrical shape and a plurality of injection holes formed on an outer peripheral surface thereof; And a coupler coupling the lower file and the upper file; . ≪ / RTI >

Description

Technical Field [0001] The present invention relates to a helical pile and a construction method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a helical file for reinforcing a ground and a method of constructing the helical file, Lt; / RTI >

When it is necessary to improve the ground such as soft ground when constructing the structure, construction of the pile or improvement of the ground is preceded in order to prevent subsidence.

There are various types of files to be installed on the soft ground, but in particular, in a small area where large excavation equipment is not available, a perforation hole with a predetermined depth is formed to a support layer using a small piercing equipment, And a micro pile forming a small-diameter drilled-in-place pile by grouting at a low pressure is used.

However, there is a problem that the micro-pile method requires a lot of steps including a step of inserting a casing and a drawing step, and a precision is required for a work, and the construction is difficult and requires a large amount of air.

In recent years, a technique for a helical file has been used that maximizes the supporting force so as to strengthen the compressive force and the tensile force by frictionally supporting the periphery by penetrating into the ground through rotational movement of the spiral portion formed on the outer peripheral surface of the steel pipe file (Japanese Patent No. 10-1238124 ).

As shown in FIG. 1, the helical file 1 has an advantage that the stress is widely dispersed to the lower end of the helical part 2 to increase the tip end supporting force, the assembly is simple during construction, and the drilling time is relatively short . In addition, it is attracting much attention because it is an eco-friendly construction method that can easily construct slopes and minimize environmental impacts due to noise, vibration and dust.

However, in the conventional helical file, there is a problem that the helical file is inserted into the ground and the upper peripheral ground is loosened by the spiral portion.

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a helical file capable of reinforcing a loosened upper ground by a helical portion when a helical file is inserted, and a construction method thereof.

According to another aspect of the present invention, there is provided a method of reinforcing a ground, the method comprising: providing a lower file having at least one spiral portion on a cylindrical outer circumferential surface of a cylindrical body; An upper file coupled to an upper end of the lower file and having an upper portion opened, a lower portion closed, an inner hollow cylindrical shape and a plurality of injection holes formed on an outer peripheral surface thereof; And a coupler coupling the lower file and the upper file; And a helical file.

According to another aspect of the present invention, there is provided an apparatus for inserting a soil-inflow preventing bar into which an external dust is prevented from entering into an upper file through an injection hole because the inside diameter of the upper file is the same as the inside diameter of the upper- And a helical file is provided.

According to another aspect of the present invention, there is provided a helical file characterized in that the soil inflow prevention rod is made of an elastic material.

According to another aspect of the present invention, there is provided a folding device as set forth in the first aspect of the present invention, wherein the lower end of the lower pile further includes a leading end reinforcing shoe, wherein the leading end reinforcing shoe includes a pivot plate coupled to a lower end of the lower pile, And a tip end portion coupled to the helical file.

According to a preferred embodiment of the present invention, there is also provided a method of manufacturing a semiconductor device, comprising: (a) placing a lower pile having at least one spiral portion on a cylindrical outer surface of a cylindrical body; (b) coupling an upper file to an upper end of the lower file, the upper file having an open top and a closed bottom, the inner file having an empty cylindrical shape and a plurality of injection holes formed on an outer circumferential surface thereof; (c) approximating a helical file in which the lower file and the upper file are combined, such that the upper file is partially or entirely located within the ground; And (d) injecting a grout material into the upper file and injecting the grout material into the upper ground surrounding the upper file through the injection hole of the upper file; The method of constructing a helical file according to claim 1,

According to another embodiment of the present invention, in the step (b), a soil-inflow preventing bar having an outer diameter equal to the inner diameter of the upper pile is inserted into the upper pile, and after the step (c) (C ') of the helical file is further included.

The present invention has the following effects.

First, the grout material is injected into the surrounding ground through the injection hole formed on the outer surface of the upper part of the open upper part to reinforce the ground around the upper file relaxed by the spiral part of the lower file when the ground of the helical file is closed .

Second, after the helicopter is inserted into the ground with the soil inflow prevention rods inserted into the upper file, the soil inflow prevention rods are removed and the grout material is filled, so that the soil is introduced into the upper file through the injection holes of the upper file Can be prevented.

Third, the leading end portion of the helical file can be improved by positioning the leading end portion composed of the supporting plate and the reinforcing plate in the leading end reinforcing shoe coupled to the lower end of the lower file.

Fourth, the main surface friction force of the pile can be increased through reinforcement of the lower pile having the spiral portion on the outer peripheral surface and the ground around the upper pile. Therefore, it is possible to build a solid foundation by increasing the bearing capacity of the structure.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a helical file inserted into a conventional ground; Fig.
2 is a perspective view showing an embodiment of a helical file of the present invention;
3 is an exploded perspective view showing an embodiment of a helical file of the present invention.
4 is a view showing an embodiment of a helical file of the present invention incorporated in a ground;
5 is an exploded perspective view showing another embodiment of the helical file of the present invention.
6 is a view showing an embodiment of a lower file of a helical file according to the present invention;
FIG. 7 is a view showing a stepwise process for a construction method of a helical file of the present invention; FIG.

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

FIG. 3 is an exploded perspective view showing an embodiment of a helical file according to the present invention, and FIG. 4 is a view showing an embodiment of a helical file according to the present invention incorporated in the ground FIG.

A helical file (10) according to the present invention is for reinforcing a ground by penetrating into a ground, comprising: a lower pile (11) having at least one spiral portion (111) formed on the outer surface of a cylindrical body; An upper pile (12) coupled to an upper end of the lower pile (11) and having an upper portion opened and a lower portion closed and having an inner hollow cylindrical shape and a plurality of injection holes (121) formed on an outer peripheral surface; And a coupler (13) coupling the lower file (11) and the upper file (12); . ≪ / RTI >

The helical file 10 of the present invention is for increasing the frictional force of the upper ground surface, and is composed of upper and lower files 11 and 12 and a coupler 13 connecting them.

The lower pile 11 may have a plurality of spiral portions 111 protruding from the outer circumferential surface of a cylindrical body such as a steel pipe such that the spiral portions 111 are spaced apart from each other by a predetermined distance along the longitudinal direction of the main body.

The helical file 10 is inserted into the ground through the rotational movement of the helical part 111 and the lower end of the helical file 10 can be sharply inclined with respect to the ground so that the lower file 11 can be easily inserted into the ground.

The lower pile 11 may be a steel pipe having a diameter of 200 to 300 mm. However, the material and diameter of the lower pile 11 may be variously used without being limited thereto.

The upper file 12 is coupled to the upper end of the lower file 11. The diameter of the upper file 12 is preferably equal to or less than the diameter of the lower file 11 so that the upper file 12 can be easily coupled to the lower file 11 by the coupler 13. [ Is preferably used.

As shown in the enlarged view of FIG. 3, the upper pile 12 is open at its upper part to be able to grout around the upper pile 12, its lower part is closed, its inner part is hollow cylindrical, An injection hole 121 is formed.

The injection hole 121 is configured to inject the grout material 15 into the ground around the upper pile 12 relaxed by the spiral portion 111 of the lower pile 11 while the helical pile 10 is inserted .

That is, when the helical file 10 is inserted into the ground and the grout is injected into the upper file 12 through the open top of the upper file 12, as shown in FIG. 4, The grout material 15 reinforces the loosened upper ground by consolidating the surrounding ground through the plurality of injection holes 121 formed in the upper portion of the ground. Therefore, it is possible to obtain the effect of increasing the lateral force resistance through the ground reinforcement around the upper pile 12. [

The coupler 13 couples the lower pile 11 and the upper pile 12 together.

The coupler 13 can be coupled with the through-bolts B passing through the inside of the upper and lower piles 11 and 12 so as to maintain the fastening force during rotation of the pile.

The plurality of upper files 12 may be connected to the coupler 13 according to the depth of the helical file 10.

5 is an exploded perspective view showing another embodiment of the helical file of the present invention.

5, the helical file 10 of the present invention has a cylindrical shape and an outer diameter equal to the inner diameter of the upper pile 12 in the upper pile 12, (14) is detachably inserted into the upper pile (12) to prevent it from being introduced into the upper pile (12).

Therefore, after inserting the soil inflow prevention rods 14 into the upper pile 12, the upper pile 12 can be connected to the lower pile 11 and inserted into the ground.

The soil inflow prevention rod 14 prevents the infiltration of the soil into the upper pile 12 through the pouring hole 121 during the inserting operation of the upper pile 12. After the completion of insertion of the upper pile 12, The rod 14 is removed, and the grout material 15 is injected from the upper portion to fill the surrounding ground through the injection hole 121.

The soil inflow preventing rods 14 are made of an elastic material such as rubber, so that they can be easily inserted and removed inside and outside the upper pile 12 by elastic force. The soil inflow preventing rods 14 are recyclable.

6 is a diagram showing an embodiment of a lower file of the helical file of the present invention.

The helical file 10 of the present invention is further provided with a front end reinforcing shoe 16 at the lower end of the lower pile 11. The front end reinforcing shoe 16 is provided with a pressure plate 161 coupled to a lower end of the lower pile 11. [ And a front end portion coupled to the lower end of the pressure plate 161 and having two reinforcing plates 162 fixed in a vertical direction and coupled to each other in a cross shape.

6 (a) to 6 (b), the tip end reinforcing shoe 16 is constituted by a support plate 161 and a reinforcing plate 162 can do.

Since the reinforcing plate 162 uniformly supports the bottom surface of the pressure plate 161 in a cross shape, it is possible to prevent the pressure plate 161 from being bent upward due to high load.

The upper reinforcing plate 162 has a triangular cross section and has its vertex pointed downward so that a sharp lower end portion can be easily inserted into the ground when the lower pile 11 is inserted into the ground.

The tip end reinforcing shoe 16 can be welded to the lower end of the lower pile 11 but the upper end inner surface of the tip end reinforcing shoe 16 and the lower pile 11 11) threads can be formed on the lower outer circumferential surface, respectively, so that they can be screwed together.

In this way, when the tip end reinforcing shoe 16 and the lower pile 11 are screwed together, there is no deformation of the member due to the welding heat, and it is safe and easy to be coupled by mechanical coupling.

7 is a view showing a stepwise process for a method of constructing a helical file of the present invention.

In the method of constructing the helical file of the present invention, (a) a lower pile 11 having at least one spiral portion 111 formed on the cylindrical outer peripheral surface of the cylindrical body is inserted into the ground (Fig. 7 (a)).

(B) an upper pile 12 having an upper portion opened and a lower portion closed and having an inner hollow cylindrical shape and a plurality of pouring holes 121 formed on the outer peripheral surface thereof is coupled to the upper end of the lower pile 11 with a coupler 13 Next, the helical file 10 in which the lower file 11 and the upper file 12 are combined is inserted in such a manner that some or all of the upper file 12 is located in the ground (FIG. 7 (b) 7 (c)).

At this time, in order to prevent the soil from entering into the inside of the upper pile 12 in the step (b), the upper pile 12 has a cylindrical shape and an outer diameter equal to the inner diameter of the upper pile 12, 14). In this case, the step (c ') of removing the soil inflow prevention rods 14 after the step (c) should be further included (FIG. 7 (c')).

The grout material 15 is injected into the upper pile 12 and the grout material 15 is injected into the ground around the upper pile 12 through the pouring hole 121 of the upper pile 12, (Fig. 7 (d)).

After step (d), a concrete foundation F is formed by placing concrete on the upper part of the upper pile 12 (FIG. 7 (e)).

The construction of the construction method of the helical file of the present invention and the role of these structures are the same as those described above in the helical file of the present invention.

1: helical file 2: spiral part
10: Helical file 11: Lower file
111: spiral part 12: upper file
121: injection hole 13: coupler
14: a soil inflow prevention rod 15: a grout material
16: end reinforcement shoe 161:
162: reinforcing plate B: bolt
F: Foundation

Claims (6)

It is intended to reinforce the ground in the ground,
A lower pile (11) having at least one spiral portion (111) formed on the outer surface of the cylindrical body;
An upper pile (12) coupled to an upper end of the lower pile (11) and having an upper portion opened and a lower portion closed and having an inner hollow cylindrical shape and a plurality of injection holes (121) formed on an outer peripheral surface; And
A coupler (13) coupling the lower file (11) and the upper file (12); Wherein said helical file is a helical file.
The method of claim 1,
The upper pile 12 has a cylindrical shape and an outer diameter equal to the inner diameter of the upper pile 12 to prevent the outer pile 12 from being introduced into the upper pile 12 through the pouring hole 121, (14) is detachably inserted.
3. The method of claim 2,
Wherein the soil inflow prevention rods (14) are made of an elastic material.
The method of claim 1,
The front end reinforcing shoe 16 is further coupled to a lower end of the lower pile 11. The front end reinforcing shoe 16 includes a pivot plate 161 coupled to a lower end of the lower pile 11, Wherein the two reinforcing plates (162) are coupled to each other in a cross shape.
(a) approximating a lower pile (11) having a cylindrical outer periphery of the body to the ground, the pile (11) having at least one spiral portion (111) formed therein;
(b) an upper pile 12 having an upper portion opened and a lower portion closed and having an inner hollow cylindrical shape and a plurality of injection holes 121 formed on the outer peripheral surface thereof is coupled to the upper end of the lower pile 11 by a coupler 13 step;
(c) moving the helical file (10) coupled with the lower file (11) and the upper file (12) so that the upper file (12) is partially or entirely located within the ground; And
(d) injecting a grout material (15) into the upper pile (12) and injecting the grout material (15) into the ground around the upper pile (12) through the pouring hole (121) of the upper pile (12); Wherein the helical file includes a plurality of helical files.
The method of claim 5,
In the step (b), the soil-inflow preventing rods 14 having the same outer diameter as the inner diameter of the upper pile 12 are inserted into the upper pile 12,
Further comprising the step (c ') of removing the soil inflow prevention rods (14) after the step (c).

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