KR101812463B1 - Rrotating-press type pile construction method by using tip-enlarged pile - Google Patents

Abstract

The present invention relates to a rotating press-type pile construction method using a tip-expanded steel pipe, comprising: a ground excavation and pile penetration step of performing construction to expand a cross sectional area in contact with the ground while expanding an excavation range through a tip extension part formed in a second bit; and a hollow hole inside soil excavation step of excavating soil hardened by a friction force with a hollow hole. According to the present invention, it is possible to improve constructability of pile construction and enable pile construction to smoothly be performed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotary press type pile construction method,

More particularly, the present invention relates to a pivoting method for pile construction using a tip-extended steel pipe for constructing a pile through an end extension. More specifically, when the pile is extended, the pile is rotated simultaneously with the pile being pushed, The present invention relates to a rotary press type pile construction method using an end-extended steel pipe that can be installed.

When constructing structures directly on the ground, the ground must be stable. If the ground is not stable against the expected structure, the ground improvement should be carried out.

Roads, railways, etc. Are made on soft ground. In the improvement of the soft ground which is the foundation of the soil piling, a method of increasing the strength of the soil by compressing and dehydrating the clay layer mainly by the sand drain method is used. This method only increases the density of the clay layer, but it can reduce the settlement of the dam construction and prevent the destruction of the ground.

In recent years, it has been applied to the sand drain to add chemical curing of the surrounding ground by adding various curing agents to the sand drain, or to intensively consolidate the sand drain by strengthening the sand drain and strengthening the sand drain itself. A sub-flow method) is widely used. In addition, it is difficult to directly stabilize and stabilize the peat layer when it is made especially in soft terra cotta etc., so there is a case where a substitution improvement method in which this material is removed and replaced with a good quality material such as sand is carried out, It is improvement.

This kind of soil improvement work is mainly applied to soil piling, and most of them take the method of supporting the foundation ground by penetrating the pile without improving the ground. When the foundations of existing structures are weakened due to various influences, or damage is expected due to excavation of adjacent grounds, piles can not be directly reinforced, so it is often necessary to reinforce the ground itself. In this case, the injection method is generally used.

Cement and medicinal solution are injected under pressure in the ground to stabilize it. It is effective for sandy soil but not for clay or silty quality clay soil. In particular, effective methods for clay ground include electro-penetration techniques that apply dc voltage to the ground to dehydrate and electrochemically stabilize it, and sintering techniques that excavate the smoke path in the ground and melt it around with high heat But it is not used well. Other freezing method (ground freezing method), and drainage method.

On the other hand, there are various methods of pile type, such as pile piling, concrete piling, steel pile piling and so on.

The piling method has excellent properties in terms of the pile material and the structural support performance, and thus is the most preferred method in the related art for the foundation method of civil engineering structures. However, due to the construction environment pollution factors such as vibrations and noise caused by the hitting energy generated during the piling of the hoe pile, the durability of various structures around the construction site is seriously damaged, and it is not only infringing people's daily life, There is a problem that livestock is a cause of death in the area where the facilities are adjacent. Since the announcement of the Noise and Vibration Regulation Act for construction work in 1994, the people's environmental rights problem has been recognized as one of the most prominent problems in construction work. Noise and vibration generated during construction of piles have become a subject of popular complaints. Therefore, it is a trend that the usage is restricted due to construction pollution problems such as noise, vibration, and soot, which are possessed not only by large cities, but also outside the city and the private households. Especially, in case of civil complaints caused by this, there are frequent cases in which the design change is made by the purchase method during construction, which causes a huge obstacle in construction. As a result, the applicability of the hovering method is continuously decreasing, and instead, it is being converted into various low vibration and low noise methods.

Unlike the above-mentioned pile driving method, the conventional pile-pile method in which ground piles are pierced by punching a paperboard punches up to the ground of the support layer using a punching machine, and then performs grouting for the pile using a nozzle of a punching machine. Slowly pull the prestressing rod while injecting grouting grout, then insert the prefabricated pile (concrete, steel pipe) through the perforated holes in the ground. In order to secure the bearing capacity of the pile, it is necessary to construct the pile by a series of processes in which a final pile driving work is carried out using a separate hinge or a light hinge ram.

As another example of the above-mentioned buried pile method, a method has been proposed in which, when the ground is drilled, the hole is drilled using an auger with a spiral rod, and the grout is simultaneously carried out at the leading end and the main surface after the drilling.

In the pile-in-pile method, the sludge due to the pore is not discharged to the outside, but is located about 50 to 100 cm to the pile end supporting layer, so that it is difficult to exhibit the design support force of the pile. Despite the above problems, the pile construction method is widely used in Korea because it has the advantage of eliminating the noise and vibration generated during the construction of the steel pipe pile.

According to the conventional steel pipe piling method, the load applied to the steel pipe pile is mainly supported by the frictional force of the main surface rather than the tip supporting force, and the bearing capacity is significantly reduced as compared with the construction method in which the steel pipe pile is directly hit with the hammer, And the construction cost is about 10 times, and it has a disadvantage that economic efficiency becomes weak. That is, the above-mentioned steel pipe piling method is aimed at eliminating the possibility of complaints through the advantages of low noise and low vibration due to the construction and environmental regulation regulations such as noise and vibration despite the limit of relatively high construction cost, non-economicity, and low bearing capacity Currently, the application is increasing. In the case of piles constructed by the conventional steel pipe piling method, the stress due to the axial load and the bending moment loaded on the steel pipe pile was mainly supported by the strength of the steel pipe pile. In order to increase the strength of the pile itself, A thicker one should be used. However, since the steel pipe pile is made of expensive steel, there is a disadvantage that material cost is increased when the strength of the steel pipe pile is increased by increasing the diameter and thickness of the steel pipe pile as in the conventional construction method. In addition, when the steel pipe pile is rotated and pressurized and penetrated, if there is a layer having low intrusiveness due to rotation / indentation such as a gravel layer, a hard clay layer, a hard sand layer, a weathering layer, It has a problem of difficulty in construction such as damage of the tip portion.

On the other hand, in Korean Patent No. 10-1144312 (hereinafter referred to as "Patent Document 1"), a steel pipe pile equipped with an expanding device for expanding the tip of a steel pipe pile is inserted by rotation and press fitting, It has been suggested that a construction method capable of suppressing the occurrence of vibration and noise by drilling through the inside of the excavation and improving the efficiency of construction of the pipe pile penetration.

To this end, the Patent Document 1 has a steel pipe pile body having a hollow portion formed therein and constitutes an auger to be inserted into the hollow portion inside the steel pipe pile body. At the tip of the steel pipe pile body, And a saw blade is provided on the side surface of the semicircular disk to penetrate the steel pipe pile body to rotate and to flow into the hollow portion through the auger arranged in the hollow portion to be hardened by the frictional force It is constructed so that the excavated soil can be excavated again.

(Patent Document 1) KR10-1144312 B1 Steel Pipe Pile Extension Device and Steel Pipe Pile Construction Method Using the Same

However, the above-described Patent Document 1 lacks structural stability, and the following problems have arisen in actual construction.

First, a disk-shaped disk plate coupled to the front end of the above-mentioned steel pipe pile body is composed of a structure coupled to the tip of the body of a steel pipe pile body, and has a sawtooth on its side, It is composed of a structure in which the disk is rotated and the end is expanded along with the excavation of the ground.

However, since the semicircular disc plate is welded to the front end of the steel pipe pile body, when the semicircular disc plate rotates and the end extension construction is performed as described above, the amount of load is increased to be removed from the front end of the steel pipe pile body, There arises a problem that the construction can not be performed smoothly.

In addition, the above-mentioned Patent Document 1 has a problem that since the auger is necessarily used even in the case of pile construction with soft ground or low depth of ground, the work process is complicated and the construction cost is increased accordingly .

That is, in the process of piling the soft pile body, when the pile body is rotated by rotating the body of the steel pipe pile body, the soil introduced into the hollow portion of the steel pipe pile body is intensified by the frictional force in the process of penetrating the steel pipe pile body together with the ground excavation, And the clogging effect may occur due to the solidification of the gravel on the hollow portion of the portion, which makes it difficult to penetrate the steel pipe pile body at a deeper depth.

Therefore, the above Patent Document 1 has a problem that the auger should be used irrespective of whether it is a soft ground or a multi-layer ground.

In order to solve the above-mentioned problems, the rotary press type pile installation apparatus using the end-expansion steel pipe according to the present invention has an effect of improving the supporting force by extending the end during the pile construction for supporting the upper structure installed on the ground, The present invention is to provide a rotary press type pile construction apparatus using a steel pipe with a front end which can reduce the workability and construction cost by using a single or a combination of two or more augers.

Another object of the present invention is to improve the workability of the pile construction by preventing the clogging effect when only the second auger is used or the first and second augers are used at the same time, So that it can be performed smoothly.

Another object of the present invention is to prevent the delay of the work due to the breakage of the components by making the structural stability at the time of pile excavation simultaneously with the excavation of the ground.

In the present invention, a peg is formed by combining a tip extension portion and a second bit including first and second bit blades at the tip of a second auger, which is used as a pile, in addition to the end expansion process. .

And a second bit including first and second bit teeth coupled to the bit body at the tip of the second auger used as the pile is formed so that the pile can be constructed without a separate drilling operation when the pile is installed at the construction site where the ground is laid .

Further, it is possible to prevent the clogging effect even when the soil is hardened due to the frictional force during the process of press-fitting the peg through the shaft portion formed at the end of the hollow hole of the second auger, and the second bit edge coupled to the bit body in an eccentric state is excavated It is also possible to prevent the clogging effect by agitating the soil, and it is possible to construct the pile with high precision.

When the second bit of the second auger is fixedly coupled to the second rod of the second auger, the bit body of the pipe shape is coupled with the second bit of the second auger through the welding connection, so that the fixed connection of the second bit and the second bit is firm, In particular, since the bit body has a structure in which the leading edge extension part and the first and second bit edges are sequentially formed, the first and second bit edges are formed by excavating the ground, It is possible to improve the workability by preventing the damage due to the overload by performing the process of extending the additional ground excavation range.

In addition, when the second auger drive of the second auger is engaged with the second auger drive, the second auger drive is combined with the second auger drive with a simple structure in a state of reinforcing the second end of the second auger, The second rod and the second auger drive can be easily coupled with each other and the efficiency of the work process can be improved.

In addition, when the rod coupling hole is formed in the coupling portion formed at the end of the second rod, the operator can easily extend the second rod when the pile is installed with a high degree of accuracy, thereby shortening the working time.

In addition, when a pile is required to be installed in a hard ground or a pier, a first auger is disposed in a hollow hole formed inside the second rod to excavate the soil within the hollow hole to prevent the clogging effect, It is a useful invention that can be constructed.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing a rotary press-in type pile construction apparatus using a pipe extending at an end according to the present invention; Fig.
2 is a detailed view of part A of Fig.
3 is a detailed view of a portion B in Fig.
Fig. 4 is a bottom view of Fig. 3; Fig.
5 is a perspective view showing a second bit of a piercing pier construction field using a pipe extending at an end;
6 is a state diagram showing a pile installation state using a second auger.
7 is a state diagram showing a pile installation state using first and second augers.

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

A rotary press type file construction apparatus 100 using a leading end steel pipe used in the present invention will be described.

First, as shown in Fig. 1, first and second auger drives 11 and 12 are rotatably mounted on the body 10 so as to be movable up and down.

The configuration of the body 10 is a typical configuration, and a detailed description thereof will be omitted in the present invention.

1, the first auger 40 is coupled to the first auger drive 11 of the body 10, and is capable of excavating the ground with the upward and downward movement as well as receiving the rotational force .

Therefore, the first auger 40 is coupled with the first rod 20 coupled to the first auger drive 11 so as to extend in the vertical direction, and the ground is excavated at the tip of the first rod 20 The first bit 30 is combined with the first bit.

Next, the second auger 70 is configured to be coupled to the second auger drive 12 of the body 10 and to be rotated by the second auger drive 12 while being movable upward and downward.

The second auger drive 70 is composed of the second rod 50 and the second bit 60 coupled to the tip of the second rod 50.

The second rod 50 is formed on the engaging portion 51 at the rear end of the body 10 so as to engage with the second auger drive 12 of the body portion 10. A hollow hole 52 is formed in the inside of the engaging portion 51, Like shape so that the first rod 20 and the first bit 30 of the first auger 40 described above are disposed within the hollow hole 52 and at this time the first auger 40, The first bit 30 of the second rod 50 is configured to be disposed only in the hollow hole 52 inside the second rod 50. [

2, the reinforcing portion 51a is formed so that the engaging portion 51 is thicker than the outer diameter of the second rod 50, and the reinforcing portion 51a is provided with a plurality of keys 52b As shown in FIG.

Particularly, the reinforcement portion 51a of the coupling portion 51 is coupled to the rear end of the second rod 50 through a joining method like welding, So that the rod coupling hole 51c can be formed by the rear end surface of the second rod 50 and the reinforcing portion 51a.

The second auger drive 12 of the body 10 is connected to the first engaging hole 12a and the first engaging hole 12a extending in the vertical direction to engage with the key 51b, The extending direction of the second engaging hole 12b is the same as that of the second auger 70 which is rotated to excavate the ground by the second auger drive 12. [ And extend in the same direction as the rotation direction.

An end portion of the hollow hole 52 formed in the second rod 50 constituting the second auger 70 is further provided with a shaft portion 52a having a diameter smaller than the diameter of the hollow hole 52 .

The second bit 60 constituting the second auger 70 is fixedly coupled to the tip of the second rod 50 by welding such as welding so that the second auger 70 is connected to the second auger drive 12 , The ground is excavated and press-fitted in the downward direction by the weight of the second auger drive 12 of the body part 10. [

3 to 5, the second bit 60 is formed in a substantially pipe-shaped body 61 that is coupled to the tip of the second rod 50 and has an internal hollow shape, One or more tip extensions 62 made of a semicircular sphere are coupled to the outer peripheral surface of the rear end of the bit body 61 at a predetermined angle.

Here, the distal end extending portion 62 is formed to be angularly coupled in a direction in which the ground can be excavated when the second auger 70 is rotated.

The bit body 61 is formed with two first bit teeth 63 at regular intervals and a second bit tooth 64 is formed so as to connect a pair of first bit teeth 63 .

Here, the second bit edge 64 is welded to the bit body 61 and the first bit edge 63, and the edge portion of the second bit edge 64 is formed in a W-shape .

Particularly, the first bit edge 63 described above is formed at equal intervals around the imaginary central axis of the bit body 61, and the second bit edge 64 is formed at a distance equal to the thickness of the first bit edge 63 It is preferable that the coupling be formed in an eccentric form at the virtual center axis of the bit body 61. [

Hereinafter, a method of constructing a pile using the piercing pile construction apparatus 100 using the end-extension steel pipe having the above-described structure will be described.

According to the method of constructing the pile of the present invention, the second auger 70 of the piercing pile construction apparatus 100 using the end extension steel pipe can be used alone, The augers 40 and 70 are simultaneously used.

That is, when the ground is torn or the pile is penetrated to a low depth, the pile construction is performed using only the second auger 70, and when the ground is hard or the pile is penetrated up to the depth, , And the two augers (40, 70) are used at the same time to construct a pile penetration installation (refer to FIG. 1 and FIG. 6).

First, let us examine the case where the ground is torn or the pile penetration to the low depth is made.

A piercing pile construction apparatus 100 using a tip extension steel pipe is disposed at a position where a pile is to be constructed and then a second auger 70 is coupled to a second auger drive 12 of the body 10 .

 The second auger 70 then uses the second auger drive 12 to rotate the second rod 50 and second bit 60 of the second auger 70 so that the first and second bit edges 63 The excavation of the ground is carried out by the first and second bit blades 63 and 64 and the leading end extending portion 62 formed at the rear end of the second bit 60 Expands the excavated area of the ground (excavation of ground and pile penetration stage).

At this time, the first bit edge 63 formed in the second bit 60 of the second auger 70 has two bit positions, one at the front and one at the front end of the bit body 61, 61 are equally spaced with respect to an imaginary center line of the second bit 60, and the ground is excavated in a circular shape when the second bit 60 is rotated.

The second bit edge 64 formed in the second bit 60 is coupled to the tip of the bit body 61 in the form of a pipe so that the first bit edge 63 can be connected to each other, The bit edge 64 is formed in the shape of a letter W and is eccentrically joined by the thickness of the first bit edge 63 at the imaginary center line of the bit body 61 so that the first bit edge 63 And excavate the excavated surface excavated in a circular shape.

In particular, as described above, the second bit blade 64 is eccentrically joined to the bit body 61 to move the gravel generated after the ground excavation in a direction in which the second auger 70 rotates Stirring operation is performed.

Therefore, when the second bit 60 is excavated by the second bit 60 and the second auger 70 is press-fitted by the weight of the body 10, 2, when it is moved to the hollow hole 52 of the rod 50, it flows into the form of a grain like a grain of sand instead of a lump, thereby preventing the clogging effect generated in the work for pile construction.

The hollow hole 52 at the position where the tip portion of the hollow hole 52 of the second rod 50 described above, that is, the second bit 60 of the second rod 50, 52a are formed.

The shaft portion 52a is configured to have a smaller diameter than the diameter of the hollow hole 52. When the soil generated by the second bit 60 becomes hardened by the frictional force in the hollow hole 52, So as to prevent the clogging effect.

That is, the above-mentioned shaft portion 52a is formed so as to have a smaller diameter than the hollow hole 52

That is, the soil generated through the second bit 60 flows into the hollow hole 52 during the press-fitting of the second auger 70. At this time, the soil is excavated to the second bit 60, And the gravel is introduced into the first shaft portion 52a.

The soil that has flowed into the shaft portion 52a in this way is solidified by the friction with the shaft portion 52a due to the rotation of the second auger 70 to form a solid state, The new gravel moves to the shaft section 52a and moves the gravel to be hardened by the frictional force to the hollow hole 52 having a diameter larger than that of the shaft section 52a in the process of pressing the auger 70 into the deep position It is possible to prevent a phenomenon that the hollow hole 52 formed in the second rod 50 is clogged with the gravel by preventing the phenomenon that the gravel is hardened.

The second bit 60 is formed by fitting a pipe body 61 having a pipe shape to the tip of the second rod 50 and then welding the pipe body 61 to the tip of the second rod 50. At the tip of the bit body 61, 1 and 2 bits 63 and 64 are welded and welded to the rear end, and the tip extension 62 is welded to the rear end.

That is, in the present invention, the second bit 60 is rigidly fixedly coupled to the second rod 50, and particularly when the first and second bits 63 and 64 are excavated during ground excavation, 62 are extended to extend the excavated space, so that no excessive load is applied to the tip extension portion 62, thereby maintaining the structural stability. As a result, during the penetration of the pile during the pile construction, It is possible to obtain an effect that does not occur.

In the present invention, the engaging portion 51 including the reinforcing portion 51a and the key 51b is formed at the rear end of the second rod 50 to reinforce the rear end of the second rod 50, So that it can be easily engaged with the drive 12.

That is, the reinforcing portion 51a is formed by joining to the outer peripheral surface of the rear end of the second rod 50 having a small thickness and then welding. Therefore, when the torque is transmitted to the second auger drive 12 And the key 51b formed outside the reinforcing portion 51a has a first engaging hole 12a formed in the second auger drive 12 in the horizontal direction and a second engaging hole 12b formed in the first engaging hole 12b, 12a of the first rod 50 and a second coupling hole 12b formed to extend in the horizontal direction to form a coupling hole 12b for coupling to the rear end of the second rod 50. In addition, .

The reinforcing portion 51a is formed in a pipe shape and when the reinforcing portion 51a is coupled to the rear end of the second rod 50, the reinforcing portion 51a is coupled to a position higher than the rear end surface of the second rod 50, And a rod coupling hole 51c is formed.

Therefore, if the second rod 50 is to be extended after penetration, the tip of the second rod 50 is brought into contact with the rod coupling hole 51c, So that the worker can easily join the second rod 50 without the need of the operator to improve the workability for penetrating the pile.

If the pile is to be intruded until the ground is rigid or rigid, the first auger 40 may be disposed in the hollow hole 52 formed inside the second auger 70 to perform the operation. (See Fig. 1 and Fig. 7).

That is, the first rod 20 is coupled to the first auger drive 11 formed on the body 10 simultaneously with the operation of the second auger 70 described above, The first bit 30 is coupled to the first rod 30 and the first bit 30 is disposed in the hollow hole 52 formed in the second rod 50, The first auger 40 is disposed so as to be positioned higher than the shaft portion 52a formed in the second rod 50 and then the first auger 40 is driven together with the second auger 70. [

As described above, the soil and the soil that are to be hardened or hardened due to the friction between the soil and the hollow hole 52 and the shaft portion 52a formed in the hollow hole 52 formed in the second rod 50, And the first bit 30 formed on the base 40 is excavated to prevent the clogging effect.

Therefore, when the ground is hard or the penetration depth of the pile is deep, the depth of the pile penetration due to the clogging effect can be improved and the efficiency of the excavation can be improved.

While the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will readily appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

10:
11: 1st auger drive
12: second auger drive 12a: first coupling hole 12b: second coupling hole
40: 1st auger
20: First load
30: 1st bit
70: 2nd auger
50: second load
51: engaging portion 51a: reinforcing portion 51b: key 51c: rod engaging hole
52: hollow hole 52a:
60: second bit
61: bit body 62: tip extension 63: first bit edge 64: second bit edge
100: Rotary push-fit pile construction device using end extension steel pipe

Claims (4)

A first auger comprising a first auger drive, a first rod coupled to a first auger drive of the body, and a first bit coupled to a first rod tip, and a second auger comprising a first auger, A second rod having a hollow hole in which a first auger can be arranged, and a pipe-shaped bit body coupled to a tip of the second rod and having an inner hollow shape, And a semicircular shape fixedly coupled to an outer circumferential surface of the bit body so as to engage the ground in a state of being twisted at a predetermined angle in the horizontal direction so as to excavate the ground during rotation of the second auger, A second bit composed of a first bit edge and a second bit edge formed at a position adjacent to the first bit edge and formed in a W-shape at the lower center of the bit body, The method of claim 1, wherein the peg construction method comprises:
The second auger of the press-fit type file construction apparatus using the end-extension steel pipe is rotated to be excavated at the same time as the excavation of the ground through the first and second bit blades formed in the second bit, The first bit formed on the second bit of the second auger is inserted into the bit body so that the cross sectional area of the second bit on the bit body is increased, And the second bit edge is formed so as to be spaced apart from the virtual center line of the bit body by the thickness of the first bit edge while connecting the first bit edge, 2 auger is rotated to keep the particle shape by agitating the gravel excavated in the direction of rotation of the auger, and in the hollow hole formed in a part of the tip of the hollow hole formed in the second rod, And a pile penetration step for piercing the ground excavation and the pile, wherein the excavation and pile penetration step are operated to prevent the clogging effect when the second rod, which is the pile, is introduced, by introducing the soil gravel which is hardened by the frictional force to the shaft tube part into the hollow hole.
When the pile is to be penetrated to a hard or deep level, a first auger is disposed in a hollow hole formed in the second rod of the second auger, and then the first auger is rotated using the first auger drive to enter the hollow hole And a hollow hole internal soil excavation step for excavating the solidified soil by a frictional force with the hollow hole.
delete 2. The method of claim 1, wherein the engaging portion formed on the second rod of the second auger in the ground excavation and pile penetration step forms a key on the reinforcing portion and the surface of the reinforcing portion at the rear end of the second rod, The auger drive has a first engaging hole extending in the vertical direction and a second engaging hole extending in the horizontal direction in the first engaging hole and extending in the horizontal direction in the direction in which the second auger rotates Wherein the second auger drive unit is configured to maintain the combined state of the second auger drive unit and the second auger unit during the excavation of the ground through the second auger.
2. The method of claim 1, wherein the reinforcing portion of the engaging portion formed on the second rod of the second auger in the ground excavation and pile penetration step has a diameter larger than the diameter of the second rod, When the second rod is extended by forming a rod coupling hole in the inside of the second rod, the front end of the new rod is welded to the rod coupling hole and then the second rod is extended. A method of constructing a rotary press type pile using a tip extension steel pipe characterized in that it is combined with a second auger drive.

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