KR101624896B1 - A spiral pile - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spiral file, and more particularly, to a spiral file that maximizes a supporting force against a ground.
To this end, a spiral file comprising a pipe and a spiral portion extending from one end of the pipe and being twisted in a spiral shape is provided with a closing plate at one end of the pipe to shield the inside of the pipe, And a stopper having a diameter larger than the diameter of the pipe is fixed to the circumferential surface of the pipe.

Description

Spiral file {A spiral pile}

The present invention relates to a spiral file, and more particularly, to a spiral file that maximizes bearing capacity.

In general, a foundation pile is installed on the ground to support the load of the superstructure placed on the soft ground and to transfer the load to the solid ground.

In other words, basic construction is carried out in order to firmly support structures such as buildings, streetlights and milestones in the ground. If the ground adjacent to the structure has sufficient rigidity to support it, such as hard ground, In the case of soft grounds that can be used for foundation work, but in order not to cause subsidence of the ground, pile (pile) is put in place or a designated work is carried out to improve the ground, .

The foundation pile is used for earth retaining soil construction, buoyancy anchor construction, foundation foundation work, slope reinforcement work, etc., and a foundation pile made of a metal pipe is press-fitted into the ground to be a base material capable of firmly supporting the upper structure .

The foundation file is appropriately selected and used in various forms such as a steel pipe file, a tubular file, and an H-shaped steel pipe file. However, it is common to use a tubular file for designation of soft ground. File, PC file, PHC file, and the like.

The tubular file 10 is grounded by a hammering device 20, such as a drop hammer, steam hammer, diesel pile hammer and vibration file driver, as shown in FIG.

Meanwhile, the impact method for constructing the tubular file has a problem of generating complaints of residents around the construction site due to vibration and noise due to severe ground vibration and noise.

Accordingly, a spiral file capable of suppressing noise and vibration has been recently developed, and a spiral file will be briefly described with reference to FIG.

The spiral file (30) is a dry method that does not use concrete and does not excavate. It does not generate residues, has excellent workability in a narrow space, and the vibration and noise generated during construction are just about life noise. It is increasing.

In addition, it is easy to dismantle and reuse, and construction cost can be reduced by shortening the construction time compared to tubular pile construction.

The spiral file 30 is advantageous in that it can be used for a variety of purposes such as construction of a building, civil engineering work, agricultural use such as a vinyl house, a windbreaker, etc. according to the standard.

As shown in FIG. 2, the spiral file 30 is composed of a hollow pipe 31 through which both sides pass, and a spiral portion 32 spirally twisted at one side of the pipe 31.

As the spiral part 32 is formed, the spiral part 32 is pressed and inserted along the ground even if a small-sized hammering device is used in the hammering operation, so that the construction can be easily performed.

However, the above-described conventional spiral file also has the following problems.

First, the pipe 31 has a hollow shape penetrating both sides, so that the soil flows into the inside of the pipe 31 while the spiral pile 30 is press-fitted into the ground.

That is, as the soil enters the pipe 31 during the hoeing operation by the hoeing equipment, the resistance is reduced and the energy for the hoeing work is less, but the bearing capacity in the ground is hardly increased.

Second, there is a problem that it is difficult to determine the fixed position of the spiral file 30. [

That is, since the spiral file 30 in the soft ground is stuck to the ground without a large resistance by the hitching operation, it is difficult to adjust the exposed height of the spiral file 30 from the ground.

Third, among the spiral files 30, the portions stuck in the ground are supported by the earth pressure, but the pipe 31 of the spiral pile 30 exposed on the ground has a problem that it can flow in all directions because there is no binding force on the ground .

Fourth, it is required to maximize the bearing capacity of the spiral file 30 embedded in the ground.

Although the spiral file 30 according to the related art is rotated and press-fitted to provide a strong supporting force, it takes a certain period of time until the spiral file 30 is loosened and returned to its original position There was a problem that should be.

Particularly, it is difficult to maximize the bearing capacity of the spiral pile 30 only by the earth pressure, and a countermeasure is required to compensate for this.

Republic of Korea Pub. No. 10-2007-0008124 Republic of Korea Publication No. 10-2010-0015601

SUMMARY OF THE INVENTION It is an object of the present invention to provide a spiral file that maximizes bearing capacity on a soft ground and facilitates control of a hanger depth.

In order to achieve the above object, the present invention provides a spiral file including a pipe and a spiral portion extending from one end of the pipe and being twisted in a spiral shape, wherein one end of the pipe is provided with a close plate, And a stopper having a diameter larger than the diameter of the pipe is fixed to the circumferential surface of the pipe so that the soil is prevented from flowing into the pipe during the hitching operation.

At this time, a reinforcing member for reinforcing the stiffness of the stopper may be further fixed between the stopper and the pipe.

At this time, it is preferable that the reinforcing member is fixed to the bottom surface of the stopper along the spiral of the peripheral surface of the pipe.

Further, it is preferable that a grouting hose is further installed along the pipe and the spiral portion.

The spiral file according to the present invention has the following effects.

First, a closing plate is installed at one end of the pipe so that the soil does not flow into the pile during the piling operation, so that when the spiral pile is stuck in the ground, the soil does not flow into the pipe.

Accordingly, the energy for the hunting operation is largely applied, thereby maximizing the supportability of the spiral file to the ground.

Second, a stopper having a diameter larger than the diameter of the pipe is provided on the circumferential surface of the pipe, thereby facilitating the control of the sprouting depth of the spiral file.

That is, since the bottom surface of the stopper is interfered with the ground when the spiral file hitching operation is pushed into the ground, the operator can easily recognize the bottom surface of the stopper so that the hitching depth of the spiral file can be easily controlled.

Further, the stopper restrains the spiral file in the upward and downward directions. However, since the stopper is in close contact with the ground, it is possible to prevent the spiral file from being moved in the left and right directions or obliquely stuck.

A reinforcing member for reinforcing the stopper is provided between the stopper and the pipe to reinforce the stiffness of the stopper. The reinforcing member is fixed to the stopper formed by the spiral along the circumferential surface of the pipe, thereby further enhancing the supporting force can do.

Third, the grouting hose is installed along the spiral part through the pipe, so that the spiral file is embedded in the ground, and the grout is injected into the ground through the grouting hose.

Accordingly, the grouting is injected into the soil surrounding the relaxed and disturbed spiral part in the course of the spinning of the spiral file, so that the supporting force of the spiral file can be maximized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a hammering operation for a tubular file according to the prior art;
Figure 2 is a perspective view of a spiral file according to the prior art,
3 is a perspective view showing a spiral file according to a preferred embodiment of the present invention.
4 is a side view showing a state where another reinforcement is installed in a spiral file according to a preferred embodiment of the present invention
5 is a cross-sectional view illustrating a state in which a spiral file according to a preferred embodiment of the present invention is installed.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, a spiral file according to a preferred embodiment of the present invention will be described with reference to FIGS. 3 to 5 attached hereto.

The spiral file 100 has a technical feature that maximizes the supporting force with respect to the ground and easily controls the hanger depth.

The spiral file includes a pipe 110, a spiral portion 120, a stopper 130, and a grouting hose 140.

The pipe 110 constitutes the upper part of the spiral file 100 and is constituted by a pipe body.

A desired structure is coupled to the pipe 110, and coupling means is formed at an upper portion of the pipe 110 to be coupled with a desired structure.

At this time, as the engaging means, they may be provided as bolting holes formed on both sides of the pipe 110 so as to be bolted to each other, or as a flange formed on the upper end of the pipe 110.

At this time, a close plate 111 is installed at one end of the pipe 110.

The closing plate 111 shields the inside of the pipe 110 and is fixed to one end of the pipe 110.

At this time, one end of the pipe 110 refers to the side on which the spiral part 120 is formed as described later, and refers to the lower part that is caught in the ground.

That is, the close plate 111 is formed of a circular plate having a diameter corresponding to the diameter of the pipe 110, and is fixed to the lower portion of the pipe 110, so that the soil is introduced into the pipe 110 .

As the closing plate 111 blocks the inflow of soil, the energy for hitting increases when the spiral file 100 is stuck in the ground, so that the supporting force of the spiral file 100 can be increased.

On the other hand, a through hole is formed at the center of the close plate 111 so as to penetrate both sides.

The through hole is a portion through which the grouting hose 140 described later passes.

Next, the spiral part 120 constitutes the lower part of the spiral file 100 and extends from one end of the pipe 110. [

The spiral portion 120 is provided in the form of a spiral screw as shown in FIG. 3, so that the spiral portion 120 can be stuck smoothly in the ground during the hitching operation.

The spiral portion 120 is a twisted plate of metal.

Next, the stopper 130 restrains and controls the spanning depth with respect to the spiral file 100, and serves to increase the supporting force.

That is, the stopper 130 suppresses excessive insertion of the spiral file 100 into the ground in the process of vertically staking the spiral file 100 into the ground, thereby optimizing the landing depth of the ground.

3, the stopper 130 is fixed to the circumferential surface of the pipe 110 and is formed into a disc shape having a diameter larger than the diameter of the pipe 110. [

According to this configuration, the stopper 130 is brought into close contact with the ground surface in the course of staking the spiral file 100 into the ground, thereby interfering with the descent of the spiral file 100, thereby controlling the depth of the spiral file 100 .

Since the stopper 130 is formed to have a larger diameter than the diameter of the pipe 110 as described above, after the spiral pile 100 is embedded in the ground, the stopper 130 is brought into close contact with the ground, Thereby preventing left and right flow of the file 100.

As a result, the spiral file 100 can be maximally supported on the ground, and the spiral file 100 can be prevented from slanting into the ground.

The stopper 130 is fixed on the pipe 110 by welding. It is preferable that a stiffener 131 is installed between the stopper 130 and the pipe 110 to reinforce the rigidity of the stopper 130 .

The stiffener 131 can reinforce the stiffness of the disk-shaped stopper 130 by supporting the bottom surface of the stopper 130.

As shown in FIG. 3, the reinforcing member 131 is preferably fixed to the bottom surface of the stopper 130 in a spiral shape along the peripheral surface of the pipe 110.

The stiffener 131 not only reinforces the rigidity of the stopper 130 but also serves to secure a supporting force to prevent the pipe 110 from flowing in the ground even after the spiral pile 100 is embedded in the ground.

The stiffener 131 may have a helical shape as described above. Alternatively, the stiffener 131 may be configured to support the bottom surface of the stopper 130 on the pipe 110, as shown in FIG.

The grouting hose 140 is then fixed along the pipe 110 and the spiral 120, forming a channel through which the grout can flow into the ground where the spiral file 100 is embedded.

The grouting hose 140 is provided to further strengthen the supporting force of the spiral file 100. The grouting hose 140 is formed around the spiral part 120 which is disturbed and relaxed by the spiral part 120 in the course of staking the spiral file 100 into the ground So that the support force of the spiral file 100 is maximized.

That is, in order to secure the supporting force of the spiral file 100, it takes time to recover the loosened soil. In order to solve this problem, grout is injected through the grouting hose 140, It is possible to secure the supporting force for the fast.

The grouting hose 140 is fixed along the spiral part 120 through the through hole of the closing plate 111 from the inside of the pipe 110.

Hereinafter, the installation and operation of the spiral file constructed as described above will be described.

The spiral file 100 is installed as a base material for supporting the structure on a ground where a desired structure such as a street light, a solar power generation, a power structure, and a temporary housing is installed.

To do this, the hunting equipment is used to prepare the hunting operations.

At this time, depending on the scale of the basic re-construction, the hoeing equipment can be applied in various ways ranging from a hammer to a heavy equipment such as a crane.

In order to perform the hitching operation using the hitching device, the spiral file 100 is indirectly struck by mounting an auxiliary file (not shown) on the spiral file 100 rather than hitting the spiral file 100 directly, .

Meanwhile, when the spiral file 100 is hit by the hovering device, the spiral file 100 is rotated by the spiral portion 120 and is buried in the ground.

Thereafter, the spiral file 100 is stuck in the ground, and the stopper 130 installed on the pipe 110 comes into close contact with the ground and interferes with the spiral file 100, thus completing the hitching operation.

At this time, the spiral type stiffener 131 provided around the pipe 110 below the stopper 130 may be disposed in the ground so that the supporting force of the spiral file 130 can be further strengthened.

In addition, the stopper 130 is brought into close contact with the ground to suppress the upward and downward movement of the spiral file 100, as well as suppressing the left and right flow of the spiral file 100, It can be maximized.

After separating the auxiliary files, the grout is injected through the grouting hose 140.

Thereafter, the grout flows into the ground through the grouting hose 140.

At this time, the ground in which the spiral file 100 is embedded is disturbed and relaxed by the spiral part 120, and the grout is discharged through the grouting hose 140 to fill the disturbed soil.

Thereafter, the grout is hardened in the ground, thereby maximizing the supporting force of the spiral file 100.

Next, the lower part of the structure is joined to the pipe 110 of the spiral file 100 exposed on the ground as shown in FIG. 5, thereby completing the installation of the structure using the spiral file 100 as a base material.

As described so far, the spiral file according to the present invention has a technical feature that maximizes bearing capacity.

In addition to the easy construction work, the foundation material of the structure is very important because it has a strong bearing capacity, especially when the structure is installed on soft ground.

Therefore, in the spiral file according to the present invention, the stopper is brought into close contact with the ground, and the grout discharged through the reinforcing material and the grouting hose in the ground strengthens the supporting force, so that the overall supporting force of the spiral file can be maximized.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

100: Spiral file 110: pipe
111: close plate 120: spiral part
130: stopper 131: stiffener
140: Grouting hose

Claims (4)

A spiral file comprising a pipe (110) and a spiral part (120) extending from one end of the pipe and being twisted in a spiral shape,
A circular plate having a diameter corresponding to the diameter of the pipe and having a through hole penetrating both sides thereof, the circular plate being installed at one end of the pipe to shield the inside of the pipe to prevent the soil from flowing into the pipe during the hoeing operation 111);
A stopper 130 having a diameter larger than the diameter of the pipe on the circumferential surface of the pipe and closely contacting the ground;
A stiffener formed between the stopper and the pipe in a spiral shape along the peripheral surface of the pipe and fixed to the bottom of the stopper;
And a grouting hose which passes through the through hole of the closing plate and is fixed along the spiral portion from the inside of the pipe.



















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