KR101566774B1 - Construction reinforcing Method for Hard Ground - Google Patents

Abstract

The present invention relates to a method to reinforce the soft ground, which ensures construction performance and stability to compression and tension; and allows a screw pile to be deeply buried in the soft ground, thereby ensuring excellent structural stability. The method to reinforce the foundation of a structure comprises a screw pile inserting step, a hard ground excavating step, a support rod inserting step, and a grouting step.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reinforcing method for hard ground,

 The present invention relates to a structure-based reinforcement method in which the tip end of a screw pile is fixed on a hard ground, which is capable of improving resistance to a compressive force of a structure and resistance to a tensile force and minimizing settlement of the structure.

When building a building or structure on the ground, the foundation is built to ensure the structural stability of the building. However, when the foundation is soft, it is impossible to support the buildings by foundation work alone, so the construction of the pile is carried out. Among such file construction methods, there is a method of constructing the file 21 shown in Fig. As shown in FIG. 1 (a), the screw pile 21 includes a hollow tube portion 213 and a helical wing portion 212 attached upward from the tip end of the hollow tube portion at regular intervals. The hollow tube portion 213 has a sharp tip and a through hole 213a at regular intervals along the axial direction so that the grouting material such as concrete can flow out later when the grouting is performed. The helical wing portions 212 are formed at regular intervals from the tip end portion 213b of the hollow tube portion to the upper side and are formed perpendicular to the tube portion and have a larger diameter toward the upper side. As shown in Fig. 1 (b), there is an extension pipe 23 connected to the helical wave hollow tube 21 in series. When the screw pile 21 is embedded in the soft ground, the extension pipe 23 is coupled to the end portion 213c of the screw pile through the coupler 221 and buried in the ground. Here, the coupling using the coupler is performed by the pin 221. As shown in FIG. 2, the pin 221 passes through the coupler to interconnect the screw file and the extension tube, so that the pin crosses the hollow of the screw file and the extension tube.

Next, a construction method will be described. A drive device (not shown, hydraulic device can be used) is coupled to the end portion 213c of the screw file 21 shown in FIG. 1 (a), and the screw file is slowly rotated and buried in the ground. When the screw file is buried to some extent, the extension pipe 23 is placed on the end portion 213c of the screw pile 21 and the coupler 22 is engaged with the pin. Then, Not shown) to transmit the rotational force. In this case, the screw file and the extension pipe are buried through the soft ground. Through such a process, the grouting material 241, such as concrete, is buried through the predetermined device 24 for grouting, as shown in FIG. 2 (c) So that it is press-fitted through the hollow of the plate. Then, as shown in (c) and (d) of FIG. 1, the grouting material flows out through the through hole 213a formed in the screw file and the extension pipe, and flows from below to the upper side to be hardened. Then, the cap 25 is placed on the end of the extension pipe, and the concrete 26 is laid to complete the construction.

As described above, the screw file is provided with the helical wing portion 212, so that the wing portion is embedded in the ground while rotating between the soft grounds. As a result, the generation of noise during the construction period can be minimized and the construction can be carried out quickly. Since the spiral wing portion 212 is excellent in resistance to compression and tensile in the ground .

However, in such a construction method, when the distal end portion 213b of the screw pile 21 meets a hard ground r such as a rock or a rock as shown in Fig. 1 (c), it can no longer penetrate the hard ground , The insertion of the screw file is no longer possible. Therefore, in many cases, the construction is completed without being inserted to a predetermined depth in the design, which weakens the structural stability of the buildings to be built thereon and causes irreversible results such as floating settlement of the buildings in the future.

The construction method of such a screw file has been applied for a long time, but there is no sharp alternative yet to solve the above problems. The applicant of the present invention has reached the following present invention as follows.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art,

An object of the present invention is to provide a method of drilling a rigid hard ground or a gravel layer by inserting a separate bit in the lower blade among the spiral wing portions 32 of a screw file to insert a screw file up to a predetermined depth, And to secure the stability of the structure by reducing the settlement amount.

An object of the present invention is to provide a method of drilling a hard ground by inserting a separate drilling rig into the hollow of a screw pile, drilling a hole of a predetermined depth in a hard ground, inserting a support rod thereon and grouting, To provide a structural reinforcement method capable of solving the problem of noise and the workability at any one time.

It is another object of the present invention to provide a method of reinforcing a structure that can improve workability while solving the problem of noise generation because the process of excavating a hard ground by inserting into a hollow of a screw file is performed by a rotary method.

It is a further object of the present invention to provide an apparatus and a method for mounting a screw to a drill rig, which is capable of increasing an installation cost incurred by being inserted over the entire length of a screw file, And the construction cost can be remarkably reduced.

It is a further object of the present invention to provide a method of removing a screw that is required in the prior art by screwing a female screw thread formed on an inner circumferential surface of a fastening portion attached to one end of an extension pipe and a male screw thread formed on an outer circumferential surface of an end portion of the screw pile, The present invention provides a structure reinforcement method that enables excavation equipment to be inserted into a hollow portion.

       The present invention is embodied by the following embodiments in order to achieve the above object.

  According to an embodiment of the present invention, there is provided a method of manufacturing a hard disk, comprising the steps of: inserting a hollow screw file into a hard ground; and rotating the tip of the screw file having a helical wing equipped with a bit, And a first excavation step of forming a first excavation hole, and a grouting step in which the grouting material is filled in the first excavation hole by injecting the grouting material into the hollow of the screw pile .

According to another embodiment of the present invention, the hard ground excavation step includes a second excavation step of forming a second excavation hole in the first excavation hole by rotating the excavation bit by inserting a predetermined excavation bit into the hollow, Thereby further minimizing noise generation.

According to another embodiment of the present invention, the present invention is further characterized in that it further comprises a support bar inserting step of inserting the support bar into the second drilling hole of the hard ground.

According to another embodiment of the present invention, in the step of inserting the support bars, a support bar having a length enough to extend from a front end of the screw pile to a predetermined length is inserted into the hole of the hard pile, And is inserted into the screw pile so that the construction cost can be reduced and the construction time can be shortened.

According to another embodiment of the present invention, in the grouting step, the grouting material flows into the hole of the screw file through the hole to fill the hole while surrounding the support rod, then flows through the through hole of the screw file, And the periphery is filled.

According to another embodiment of the present invention, in the step of inserting the screw file, one end of an extension pipe is coupled to the end of the screw file, and the screw is inserted into a hard ground.

According to another embodiment of the present invention, the step of inserting the screw file further comprises a step of joining the screw file and the extension pipe, and the coupling is a method of screwing one end of the extension pipe and the end of the screw file To allow insertion of drilling equipment into the screw file and the extension pipe.

The present invention has the following effects with this configuration.

The present invention is characterized in that a separate bit is attached to the lower blade among the spiral wing portions 32 of the screw file to excavate a hard hard ground or gravel layer to insert a screw file up to a predetermined depth to improve the bearing capacity, It is possible to obtain an effect of securing the stability of the structure by reducing the settlement amount.

According to the present invention, a separate drilling rig is inserted into the hollow of a screw pile to pierce a hard pile to puncture holes of a predetermined depth in a hard pile, inserting a support rod thereon, and grouting, The structural stability can be ensured, and the noise problem and the workability problem can be solved at all costs.

In the present invention, the process of inserting the hard pile into the hollow of the screw pile and excavating the hard pile is performed by a rotary method, thereby solving the noise generation problem and improving the workability.

Since the support rods inserted into the holes drilled in the hard ground are extended not only over the entire screw pile but also by a certain length at the front end thereof, it is possible to prevent an increase in construction costs that may occur due to the insertion over the entire length of the screw pile, Can be remarkably reduced.

According to the present invention, since the pin, which has been required in the prior art, can be removed by screwing the female screw thread formed on the inner circumferential surface of the fastening pipe attached to one end of the extension pipe and the male screw thread formed on the outer peripheral surface of the end portion of the screw pier, It is possible to input the excavation equipment.

1 is a view showing a construction process of a conventional screw file.
Fig. 2 is an enlarged view of a portion of Fig. 1; Fig.
FIG. 3 is a perspective view of a screw file used in a construction method according to an embodiment of the present invention, and FIG. 3 (b) is a perspective view of an extension pipe coupled to a screw file.
Fig. 4 is a perspective view showing the screw insertion step of (a) inserting the screw file shown in Fig. 3 into the soft ground g, (b) A drawing showing the state where the tip of the file is different from the hard ground
Fig. 5 (a) shows the drilling of the hard ground using the bits of the lowermost wing of the screw file to form the first drilling hole, (b) inserts the drilling rig 5 into the hollow of the screw file and the extension pipe (C) is a drawing, and (d) shows a hard ground excavation step as a diagram showing a state in which excavation is completed and a second excavation hole is pierced.
6 is a view showing a support bar insertion step in which a support rod is inserted into a second drilling hole through a screw file and a hollow portion of an extension pipe;
7 is a view showing a grouting step in which a grouting material is filled in a hollow portion of a screw file and an extension pipe from a hole to an upper side by press-fitting the grouting material.
8 is a view showing a state in which grouting is completed;
9 is a flow diagram of a construction method according to an embodiment of the present invention.
10 is a flowchart of the hard ground excavation step shown in Fig.

Applicant will now describe an embodiment of the present invention with reference to the accompanying drawings.

9, the construction step of the present invention includes a screw file inserting step S1, a hard ground excavation step S3, a support bar inserting step S5, and a grouting step S7 do.

The screw file inserting step S1 is a step of inserting the screw file 3 and / or the extension pipe 4 shown in FIG. The screw pile 3 includes a hollow tube portion 31 as a hollow tube and a helical wing portion 32 spaced from the distal end portion 31a of the hollow tube portion at an interval from the end portion 31b. In addition, the helical wing portion 32 includes a lowermost wing 321 at the lowermost portion, and the lowermost wing 321 includes a bit 321a disposed at regular intervals along the outer periphery thereof. The hollow tube portion 31 includes a through hole 311 formed at a predetermined interval from the tip portion to the end portion and a male screw portion 312 formed at the end portion 31b. The through hole 311 is a hole through which the grouting material flows when grouting. The male screw thread 312 can be screwed to a connecting portion formed at one end of the extension pipe 4, thereby facilitating the connection of the extension pipe and the screw pile and forming a passage through which the drilling rig can be inserted .

As shown in Fig. 3 (b), the extension pipe 4 includes a fastening portion 41 at one end thereof. The fastening portion 41 is integrally formed with an extension pipe as a tube having a hollow shape at one end of the extension pipe and includes a female thread 411 along the inner peripheral surface thereof. The female screw thread 411 is screwed with the male screw threaded portion 312 to facilitate coupling of the extension pipe with the screw pawl and facilitate the insertion of the drilling rig, thereby enabling excavation of the hard ground.

4 (a), the screw file is rotated and buried in the soft ground, and then the male screw thread 312 formed at the end portion 31b of the screw thread 3 as shown in (b) The female thread 41 of the fastening portion 41 formed at one end of the extension pipe 4 is screwed to each other and then the rotary force is transmitted to the extension pipe to rotate the extension pipe and the screw pile, Reach to hard ground and buried. Up to this point has been a limitation of the prior art. Conventionally, since the excavation process is terminated and grouting is started at this stage, there is a problem that the stability of the building can not be guaranteed. However, the present invention can overcome the problem through the following process.

In the hard ground excavation step S3, as shown in FIG. 5A, the bit 321a located along the outer periphery of the lowermost wing 321 of the screw file excavates the hard ground along with the rotation of the file And a first excavation step S31 to descend to a predetermined depth. Unlike the conventional technique, the first drilling step S31 is a step of excavating the hard ground using the bit mounted on the lowermost wing of the screw file to form the first drilling hole S ' It is possible to solve the problems of the prior art. Subsequently, the grouting step S7 described below may be performed immediately, or the second drilling step S33 may be performed if higher structural stability is required.

The second excavation step S33 is performed by inserting the excavation equipment 5 with the excavation bit 52 into the hollow of the screw pile 3 and / or the extension pipe 4, as shown in Fig. 5 (b) And then the rigid ground r is further excavated by rotating the excavation bit 52 to reach the hard ground r and drilling the second excavation hole s as shown in FIG. As shown in (d) of Fig. 5, the excavation equipment is pulled out and only the screw files and extension pipes remain on the ground. This process excavates the hard ground with the excavation bit 52 rotating, so that noise generated during the excavation process can be significantly reduced and structural problems are not caused in the holes drilled in the soft ground. The noise generated in the excavation process causes various complaints, and it can solve this problem. In addition, the parts required for other excavations, including excavation bits, can be removed and reused for other excavation processes, reducing construction costs.

The supporting rod inserting step S5 is a step of inserting the supporting rod 6 into the hollow of the screw file and / or the extension pipe and the second drilling hole s after the excavation step is completed. It is important to note that the support rod 6 has a length such that one end of the support rod 6 is completely inserted into the second drilling hole and the other end is wound on the upper side of the screw pile only upward by a predetermined length I have to. That is, it does not need to be over the entire length of the screw file and the extension pipe. This minimizes an increase in the construction cost due to the inserted support rods, thereby solving the problems of the prior art without significantly deviating from the construction cost of the existing soft ground reinforcement method. In addition, it is possible to minimize the delay in the construction period due to the step of inserting the support rods. In addition, the above-described step of inserting the support rods is possible because the coupling between the extension pipe and the screw file is a screw fastening method that does not use a pin.

The grouting step S7 may be performed by using a predetermined grouting equipment 7 to fill a hollow portion of the screw pile 3 and / or the extension pipe 4 with a grouting material 71, such as concrete, So that they are allowed to flow around. 7 (a), the grouting material 71 flows into the hole s formed in the hard ground r through the hollow portion and surrounds the support rod 6, thereby forming the holes s and s' And then the screw file and the extension pipe are sequentially filled through the through hole 311. Finally, the grouting material is filled over the entire length shown in FIG. 7 (b) to harden the soft ground. Then, as shown in FIG. 8, the cap 8 is placed on the end of the extension pipe, and the concrete 9 is placed to complete the construction.

As described above, the present invention can simultaneously solve the structural stability problem caused by failure to excavate the hard ground while maintaining the advantages of workability and low noise.

3; Screw file, 4 extension pipes, 5 drilling rig
6: support rod

Claims (7)

A screw file inserting step of inserting a hollow screw file up to hard ground;
A first drilling step of drilling a hard ground to a certain depth by rotating a tip of a screw file having a helical wing equipped with a bit to form a first drilling hole,
And a second excavation step of inserting a predetermined excavation bit into the hollow of the screw file and rotating the excavation bit to form a second excavation hole in the first excavation hole and then drawing the excavation bit from the hollow, Step,
A support bar having a length sufficient to extend from a front end of the screw pile to a predetermined length is inserted into the second drilling hole of the hard foundation so that the support bar is completely inserted into the hole and protruded upward only by a predetermined length, A step of inserting the support bar into the support bar,
And a grouting step in which the grouting material is filled in the first drilling hole by injecting the grouting material into the hollow of the screw pile,
Wherein noise generation can be minimized by the second excavation step, and the construction cost can be reduced and the construction period can be reduced by the step of inserting the support rods. delete delete delete 2. The method of claim 1, wherein the grouting step comprises filling the hole with the grouting material by flowing along the hollow of the screw file to surround the support rod, and then flows through the through hole of the screw file to fill the circumference of the screw file. Basic reinforcement method. The method of claim 1 or 5, wherein the step of inserting the screw file comprises inserting one end of an extension pipe at the end of the screw file and rotating the end of the screw pipe to the hard ground. 7. The method of claim 6, wherein the step of inserting the screw file further comprises the step of joining the screw file and the extension pipe, and the coupling is performed by screwing one end of the extension pipe and the end of the screw file, To allow the input of excavation equipment.

Images