KR102689472B1 - fracturing drawing method of the concrete pile - Google Patents

Abstract

The present invention allows not only the concrete debris generated in the process of crushing and drawing a concrete pile buried in the ground, but also the crushed material of the grouting part existing around the concrete pile to be moved to the upper side and discharged during the crushing process of the concrete pile, so that the crushed material By improving the discharge and removal workability, the crushing and drawing workability of concrete piles can be greatly improved, and the waste steel wires that are cut can be removed as they are rolled during the crushing process of the concrete piles, so the removal performance of the waste steel wires can be greatly improved. Since the crushed material is discharged at the same time as the crushing work of the concrete pile, the crushed material does not remain around the concrete pile buried in the ground, and there is no interference with the crushing work of the air hammer as well as the drilling work of the casing, so the crushing and pulling of the concrete pile is possible. Not only can the work be done easily and easily, but the work time can be greatly shortened, and when crushing concrete piles, it is easy to discharge the steel wires constructed for the strength of the concrete piles, so the waste steel wires remain discarded in the ground and do not pollute the environment. A method for crushing and pulling out concrete piles that can prevent in advance is disclosed.

Description

{fracturing drawing method of the concrete pile}

The present invention relates to a method for crushing and pulling out concrete piles. More specifically, it is possible to greatly improve the pulling workability of concrete piles by easily and easily discharging the crushed material generated when crushing and pulling out concrete piles embedded in the ground. , It relates to a method of crushing and drawing concrete piles that allows the steel wire of the concrete pile to be easily rolled and discharged, and to facilitate the removal of the grouting for pile reinforcement remaining around the concrete pile.

In general, a concrete pile is a pile structure manufactured by installing a number of tension members radially through the pretension method, pouring concrete, and then applying centrifugal force to form a hollow part in the deep area. PHC (Pre-stressed High-tension Concrete) Types such as files fall under this category.

These concrete piles are cheaper than steel pipe piles and have the advantage of exhibiting much greater strength than cast-in-place concrete piles, so they are widely used in various construction sites.

To construct concrete piles, it can be broadly divided into a driving method, which involves striking the pile with a hammer to penetrate the ground, and a buried method, which drills a predetermined amount of ground and then installs the pile. Each method has different advantages and disadvantages, so it can be used at the construction site. It is selectively implemented depending on the construction conditions, but recently, buried construction methods with less noise and vibration are mainly used to minimize various civil complaints due to noise and vibration generated during the construction process.

In addition, in order to bury concrete piles, concrete piles are put into the perforations formed in the ground, and then the space between the perforations formed in the ground and the concrete piles is filled with cement milk and dried to reinforce the buried concrete piles. Complete.

Meanwhile, in recent years, reconstruction, which involves tearing down existing buildings and erecting new ones in their place, is actively taking place across the country. When reconstructing buildings such as apartments, all existing buildings are torn down and then the new building is designed. It is necessary to organize the reconstruction site to suit the requirements, and for this, the existing concrete piles buried in the ground must be pulled out and removed.

Conventionally, in order to remove concrete piles buried in the ground, construction is done by excavating all the ground around the concrete piles and then removing the concrete piles. This requires a lot of work time, manpower and equipment to remove the concrete piles. There was a problem that construction costs increased due to the input of .

Accordingly, construction is being carried out by breaking the existing concrete piles buried in the ground using special equipment and then re-constructing the concrete piles, or by reinforcing and driving the existing concrete piles, without excavating the ground.

However, in the case of the conventional method of pulling out concrete piles buried in the ground without excavating the ground, the work of removing the crushed material generated when crushing the buried concrete piles is not easy, resulting in a significant decrease in the pulling workability of the concrete piles. There is.

In addition, when crushing concrete piles, it becomes difficult to discharge the steel wires used to strengthen the concrete piles, and as steel wires are sometimes left discarded in the ground, the discarded steel wires cause serious environmental pollution. Problems are occurring.

Moreover, when applying construction methods such as the continuous underground wall method (SCW method), which has recently been widely applied at new construction sites for large buildings, many problems arise in applying the method because waste concrete or waste steel wire disposed of in the ground becomes an obstacle. There is a situation.

Looking at the prior art, Registered Patent No. 10-1248393, a method and drawing hole for concrete piles buried in the ground, has been developed, which includes the steps of clearing the ground around the head of the concrete pile buried in the ground, and the external diameter of the concrete pile. A step of burying a discharge pipe in the ground for the entire length of the concrete pile by aligning the center of the discharge pipe forming a hollow portion with a large inner diameter with the center of the concrete pile so that the concrete pile buried in the ground can be inserted into the hollow portion of the discharge pipe; It consists of connecting the extraction port to the head of the exposed concrete pile, connecting the extraction port with a crane to pull up the extraction port, and pulling the concrete pile out of the ground, and removing the concrete pile buried in the ground from the surrounding area. Because it can be extracted quickly and easily without excavating the ground, the construction period required for concrete pile removal work can be greatly shortened.

However, as mentioned above, this prior art also does not facilitate the discharge of crushed matter generated during concrete pulling, so it does not significantly improve the pulling workability of concrete piles.

Patent Document 1: Republic of Korea Patent No. 10-1248393 (registered on March 22, 2013) Patent Document 2: Republic of Korea Patent No. 10-1840640 (registered on March 15, 2018)

The present invention provides a discharge screw portion on the inner peripheral surface of a casing into which a concrete pile is buried, so that the crushed material can be easily discharged out through the discharge screw, and provides a tubing body on the lower side of the casing to provide grouting around the concrete pile. It facilitates crushing and cutting of steel wire, and facilitates the discharging of shredded material and waste steel wire by allowing the crushed steel wire and shredded material to be easily transferred to the discharge screw section provided on the inner peripheral surface of the casing along the outer peripheral surface of the tubing body. The purpose is to provide a crushing and drawing method of concrete piles that can greatly improve the drawing workability of concrete piles.

As a means to achieve the above object, the present inventor's crushing and drawing device for concrete piles includes an air hammer driver auger having a first wire connection at the top to which the first wire of the crane equipment is connected, and an air hammer driver auger at the bottom of the air hammer driver auger. An air hammer that is connected to an air hammer rotating shaft extending in the lower side direction, is connected to the lower end of the air hammer rotating shaft, and the air hammer rotating shaft is rotated by power transmission of the air hammer driver auger to crush the concrete pile buried in the ground. A casing driver auger (Auger) is provided at the top to which the second wire of the crane equipment is connected, and installs the air hammer rotation axis, and is connected to the bottom of the casing driver auger to maintain the ground around the concrete pile. In the crushing and drawing device for concrete piles including a perforating casing, the casing driver auger is provided with a discharge portion communicating with the interior of the casing, and the casing is rotated in a direction opposite to the rotation of the air hammer, A discharging screw part for lifting and moving the shredded material toward the discharging part and rolling the cut steel wire is provided on the inner peripheral surface of the casing so that the shredded material of the concrete pile crushed by an air hammer is discharged through the discharging part. It is located inside the air hammer and is connected to the air hammer rotation axis, rotating in the same direction as the air hammer, and providing a cutting tubing part that crushes and cuts the grouting part and steel wire around the concrete pile.

The cut tubing portion includes a cut tubing pipe body connected to the air hammer rotation axis by bolting, rotating in the same direction as the air hammer rotation axis, and having the air hammer located therein; It is fitted and fixed to the outer surface of the air hammer so as to be in close contact with the lower end of the cut tubing pipe body, and is provided with a grouting crushing part having a grouting crushing tip to crush the grouting portion existing around the concrete pile while rotating by the rotational motion of the air hammer. .

On the outer peripheral surface of the cut tubing pipe body to which the grouting crushing portion is in close contact, a moving screw portion is provided to move the shredded material of the grouting portion crushed by the grouting crushing tip and the cut steel wire to the upper side of the cut tubing pipe body.

In addition, the present invention's concrete pile crushing and pulling method includes a ground drilling process of positioning the casing so as to be located on the upper side of the concrete pile buried in the ground, and then rotating the casing downward to drill the ground around the buried concrete pile; A concrete pile that crushes the concrete pile by attaching an air hammer to the top of the concrete pile exposed by drilling the ground, rotating the air hammer down, and rotating the air hammer in the opposite direction to the rotation direction of the casing that drills the ground. crushing process; When a concrete pile is crushed by an air hammer, a grouting part crushing process in which the grouting part is rotated and lowered to crush the grouting part existing around the concrete pile being crushed by an air hammer; The crushed concrete piles and grouting parts crushed by the air hammer are discharged out through the discharge section provided in the casing driver auger using the discharge screw provided along the inner peripheral surface of the casing, and the cut closed steel wire is connected to the discharge screw. Shredded material discharge process to wind along; After lifting the lowered air hammer and casing, a waste steel wire removal process is provided to remove the waste steel wire wound around the discharge screw.

Before the crushed material discharge process, the crushed concrete pile and the crushed grouting portion are moved to the discharge screw side by the moving screw provided on the outer peripheral surface of the cut tubing pipe, and then the crushed concrete pile and the crushed grouting portion are passed through the discharge portion through the crushed material discharging process. This is done so that it is discharged.

The present invention allows not only the concrete debris generated in the process of crushing and drawing a concrete pile buried in the ground, but also the crushed material of the grouting part existing around the concrete pile to be moved to the upper side and discharged during the crushing process of the concrete pile, so that the crushed material By improving the discharge and removal workability, the crushing and drawing workability of concrete piles can be greatly improved, and the waste steel wires that are cut can be removed as they are rolled during the crushing process of the concrete piles, so the removal performance of the waste steel wires can be greatly improved. Since the crushed material is discharged at the same time as the crushing work of the concrete pile, the crushed material does not remain around the concrete pile buried in the ground, and there is no interference with the crushing work of the air hammer as well as the drilling work of the casing, so the crushing and pulling of the concrete pile is possible. Not only can the work be done easily and easily, but the work time can be greatly shortened, and when crushing concrete piles, it is easy to discharge the steel wires constructed for the strength of the concrete piles, so the waste steel wires remain discarded in the ground and do not pollute the environment. You can prevent it from happening.

Figure 1 is a front configuration diagram showing the crushing and extrusion device for concrete piles according to the present invention.
Figure 2 is a side configuration diagram showing the crushing and extrusion device for concrete piles according to the present invention.
Figure 3 is an enlarged configuration diagram showing the main components of the crushing and drawing device for concrete piles of the present invention.
Figures 4 to 6 are diagrams showing the crushing of concrete piles by the present inventor's crushing and pulling device for concrete piles and the crushing and pulling method of concrete piles using the same.
Figure 7 is an enlarged view of the concrete pile being crushed by the present inventor's concrete pile crushing and drawing device and the concrete pile crushing and drawing method using the same.
Figure 8 is a process diagram of the present invention's concrete pile crushing and drawing device and the concrete pile crushing and drawing method using the same.

Hereinafter, other purposes and features of the present invention in addition to the above purposes will be clearly revealed through the description of the embodiments with reference to the accompanying drawings.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless clearly defined in the present application, should not be interpreted in an idealized or excessively formal sense. No.

Hereinafter, the crushing and drawing device for concrete piles and the method for crushing and drawing concrete piles using the same according to an embodiment of the present invention will be described in more detail with reference to the attached drawings.

As shown, the present invention includes an air hammer driver auger (10) provided at the top with a first wire connection portion (12) to which the first wire (11) of the crane equipment is connected, and the air hammer driver auger (10). An air hammer rotation shaft 20 connected to the bottom and extending in the lower side direction, connected to the bottom of the air hammer rotation shaft 20, and the air hammer rotation shaft 20 by power transmission of the air hammer driver auger 10. The air hammer (30), which rotates and crushes the concrete pile (P) buried in the ground, and the second wire connection part (42) to which the second wire (41) of the crane equipment is connected are provided at the top, and the air hammer rotation axis A concrete pile including a casing driver auger (20) (40) for laying (20) and a casing (50) connected to the lower end of the casing driver auger (40) to drill the ground around the concrete pile (P). It is about a shredding device.

In the present invention, the first wire 11 and the second wire 41 of the crane equipment are connected to the first wire connection part 12 and the second wire connection part 42, respectively, and are used to transmit power of the crane equipment. By this, the air hammer driver auger (10), air hammer rotation shaft (20), casing driver auger (40), air hammer (30), and casing (50) are raised or lowered, drilling the ground to create a concrete pile (P). When crushing and drawing, the air hammer driver auger 10, the air hammer rotation shaft 20, the casing driver auger 40, the air hammer 30, and the casing 50 are lowered toward the ground.

In the present invention made in this way, the casing 50, which receives power through the casing driver auger 40, rotates to drill the ground in which the concrete pile (P) is buried, and the power transmission of the air hammer driver auger 10 As the air hammer rotation axis (20) rotates, the concrete pile (P) is crushed.

At this time, the crushed material of the concrete pile (P) is discharged along the inside of the casing (50) so that the discharge operation for the crushed material is carried out simultaneously with the crushing operation of the concrete pile (P).

For this purpose, the casing driver auger 40 is provided with a discharge portion 43 that communicates with the inside of the casing 50.

In addition, the casing 50 is rotated in the opposite direction to the rotational motion of the air hammer 30, and the shredded material of the concrete pile P crushed by the air hammer 30 passes through the discharge portion 43. To be discharged, a discharge screw portion 51 is provided on the inner peripheral surface of the casing 50 to move the shredded material up and down toward the discharge portion 43 and to roll the cut steel wire.

The reason why the rotation direction of the casing 50 and the rotation direction of the air hammer 30 are opposite to each other is that as the casing 50 rotates and drills the ground, the air hammer 30 rotates and the concrete pile (P ), the crushed material of the concrete pile (P) moves along the discharge screw portion 51 provided on the inner peripheral surface of the casing 50 to the discharge portion 43 provided on the casing driver auger 40. This is to ensure that it is discharged through.

That is, when the concrete pile (P) is crushed while the air hammer (30) rotates clockwise, the casing (50) rotates counterclockwise and the crushed material of the concrete pile (P) is discharged into the screw portion (51). It is contained inside the casing 50 and moved to the upper side of the casing 50 through the discharge screw portion 51, so that it is located at the top of the casing 50 and communicates with the inside of the casing 50. This is to ensure that it can be easily discharged through the part 43.

In addition, the present invention is located inside the casing 50, and the air hammer 30 is located inside and is connected to the air hammer rotation axis 20 and rotates in the same direction as the air hammer 30 to create a concrete pile. (P) A cutting tubing section 60 is provided to crush and cut the surrounding grouting section and steel wire.

The cut tubing portion 60 is connected to the air hammer rotation shaft 20 to which the air hammer 30 is connected, and thus rotates in the same direction as the rotation direction of the air hammer rotation shaft 20, thereby causing the air hammer ( When the concrete pile (P) is crushed by 30), it is lowered toward the ground along the air hammer (30) and the grouting part constructed to reinforce the concrete pile (P) is crushed and removed.

Of course, the shredded grouting part removed by crushing by the cut tubing part 60 is also moved to the upper side of the casing 50 by the sales screw part 51 provided on the inner peripheral surface of the casing 50 to the discharge part ( 43) and is discharged to the outside.

The cut tubing portion 60 of the present invention is connected to the air hammer rotation axis 20 by bolting and rotates in the same direction as the air hammer rotation axis 20, and the cut tubing pipe body in which the air hammer 30 is located inside ( 61), and is fixed to the outer surface of the air hammer (30) so as to be in close contact with the lower end of the cut tubing pipe body (61) and is rotated by the rotational motion of the air hammer (30) and exists around the concrete pile (P). It is provided with a grouting crushing portion (63) having a grouting crushing tip (62) to crush the grouting portion.

In the present invention made in this way, the cut tubing pipe body 61 of the cut tubing portion 60 is rotated and lowered to the circumference of the concrete pile (P) by the grouting crushing tip 62 of the grouting crushing portion 63. The existing grouting portion is crushed. At this time, the steel wire (rebar) constructed for the rigidity of the concrete pile (P) is also cut by the grouting crushing tip 62 of the rotating grouting crushing portion 63.

In addition, the cut waste steel wire is moved inside the casing 50 while being wound around the discharge screw portion 51 provided on the inner peripheral surface of the casing 50, and is wound around the discharge screw portion 51 to form the casing. The closed steel wire moved into the inside of (50) is the air hammer driver auger 10, the air hammer rotation shaft 20, and the casing driver auger ( 40), the air hammer 30 and the casing 50 are lifted and pulled out from the ground by power transmission of the crane equipment, and then the waste steel wire wound around the discharge screw portion 51 is removed.

On the outer peripheral surface of the cut tubing pipe body 61 to which the grouting crushing portion 63 of the present invention is in close contact, the shredded material of the grouting portion crushed by the grouting crushing tip 62 and the cut steel wire are placed on the cut tubing pipe body 61. A moving screw portion 64 that moves to the upper side is provided.

The moving screw part 64 is rotated when the cut tubing pipe body 61 is rotated by the rotational motion of the air hammer rotation shaft 20, and also rotates in the opposite direction to the rotation direction of the casing 50. do.

In this way, since the moving screw portion 64 is provided on the outer peripheral surface of the cut tubing pipe body 61, the crushed material of the concrete pile (P) as well as the crushed material of the grouting part and the closed steel wire are guided into the inside of the casing (50). It can be moved, making discharging the shredded material easy.

The concrete pile crushing and pulling method of the present invention is to crush and pull out the concrete pile buried in the ground by using the concrete pile crushing and pulling device of the present invention, and the same name will be applied and explained for the same configuration.

The concrete pile crushing and pulling method of the present invention consists of a ground drilling process (S1), a concrete pile crushing process (S2), a grouting part crushing process (S3), a crushed material discharge process (S4), and a waste wire removal process (S5).

The ground drilling process (S1) of the present invention is to position the casing (50) so that it is located on the upper side of the concrete pile (P) buried in the ground, and then rotate the casing (50) downward to move the buried concrete pile (P). This is a process of boring into the ground around the perimeter.

That is, although not shown, the air hammer driver auger (10), the air hammer rotation shaft (20), the casing driver auger (40), the air hammer (30), the casing (50), and the cut tubing portion (60) are installed using crane equipment. Lift the air hammer driver auger (10), air hammer rotation axis (20), casing driver auger (40), air hammer (30), casing (50) and cut to the upper side of the ground where the concrete pile (P) is buried. After placing the tubing portion 60, the casing 50 is rotated and lowered to drill the ground in which the concrete pile (P) is buried.

In addition, in the concrete pile crushing process (S2) of the present invention, the air hammer (30) is brought into close contact with the top of the concrete pile (P) exposed by ground drilling, and then the air hammer (30) is rotated and lowered. This is a process of crushing the concrete pile (P) by rotating the air hammer (30) in the opposite direction to the rotation direction of the casing (50) drilling the hole.

That is, while rotating and lowering the air hammer 30 toward the ground drilled by the casing 50, the upper end of the concrete pile P located in the drilled ground is crushed by the rotating action of the air hammer 30.

In the grouting part crushing process (S3) of the present invention, when the concrete pile (P) is crushed by the air hammer (30), the grouting crushing part (63) rotates and lowers and the concrete pile is crushed by the air hammer (30). This is a process of crushing the grouting portion existing around the perimeter of (P).

That is, when the air hammer 30 rotates and crushes the concrete pile (P), the grouting crushing portion of the cut tubing portion 60 connected to the air hammer shaft 20 to which the air hammer 30 is connected ( 63) rotates together, crushing the grouting portion existing around the concrete pile (P) by the grouting crushing tip 62 provided in the grouting crushing portion 63.

The crushed material discharging process (S4) of the present invention involves discharging the crushed concrete piles and grouting parts crushed by the air hammer 30 into a casing driver auger using a discharging screw 51 provided along the inner peripheral surface of the casing 50. This is a process in which the waste steel wire that is cut is discharged to the outside through the discharge portion (43) provided in (40) and wound along the discharge screw (51).

That is, for the rigidity of the concrete pile (P) buried in the ground, the steel wire (reinforcement bar) is exposed by crushing the concrete pile (P), and the exposed steel wire is used as a grouting crushing tip ( When the grouting part is crushed by the rotating action of 62), it is crushed and a waste steel wire is generated. The generated waste steel wire is introduced into the inside of the casing 50 and wound along the discharge screw 51.

In this way, the waste steel wire wound around the discharge screw 51 can be removed by the waste wire removal process (S5) of the present invention, and the air lowered to the ground for ground boring and crushing of the concrete pile (P) and grouting part After elevating the hammer driver auger (10), air hammer rotation shaft (20), casing driver auger (40), air hammer (30), casing (50), and cut tubing portion (60), the inner peripheral surface of the casing (50) Simply remove the waste steel wire wound around the discharge screw (51) provided in .

In the present invention, before the crushed material discharging process (S4), the moving screw 64 provided on the outer peripheral surface of the cut tubing pipe body 61 is rotated by the rotating operation of the cut tubing pipe body 61, thereby discharging the crushed concrete pile. And after moving the shredded material of the grouting part to the side of the discharge screw 51 provided along the inner peripheral surface of the casing 50, through the discharge part 43 provided in the casing driver auger 40 through the shredded material discharge process (S4). This is done so that the concrete pile fragments and grouting portion fragments are discharged.

Accordingly, the cut closed steel wire can be guided to move toward the discharge screw 51 provided along the inner peripheral surface of the casing 50 by the rotation of the moving screw 64 of the cut tubing pipe body 61, The discharge workability of waste steel wire is greatly improved.

As described above, the present invention has been described with specific details such as specific components and limited embodiments and drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. Various modifications and variations can be made from this description by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and all claims that are equivalent or equivalent to the claims as well as the claims described below shall fall within the scope of the spirit of the present invention.

10: Air hammer driver auger 11: First wire
12: first wire connection 20: air hammer rotation axis
30: Air hammer 40: Casing driver auger
41: second wire 42: second wire connection part
43: discharge part 50: casing
51: Discharging screw part 60: Cut tubing part
61: Cut tubing pipe 62: Grouting crushing tip
63: grouting crushing part 64: moving screw part
S1: Ground drilling process S2: Concrete pile crushing process
S3: Grouting part crushing process S4: Shredded material discharge process
S5: Waste steel wire removal process

Claims (5)

delete delete delete A ground drilling process (S1) in which the casing 50 is positioned on the upper side of the concrete pile (P) buried in the ground, and then the casing (50) is rotated downward to drill the ground around the buried concrete pile (P). );
After attaching the air hammer 30 to the top of the concrete pile (P) exposed by drilling the ground, the air hammer 30 is rotated and lowered in a direction opposite to the rotation direction of the casing 50 drilling the ground. Concrete pile crushing process (S2) in which the concrete pile (P) is crushed by rotating the air hammer (30);
When the concrete pile (P) is crushed by the air hammer (30), the grouting crushing part (63) rotates and falls, crushing the grouting portion existing around the concrete pile (P) that is crushed by the air hammer (30). In the grouting part crushing process (S3),
The crushed concrete pile and grouting part crushed by the air hammer 30 are discharged to the discharge part 43 provided in the casing driver auger 40 using the discharge screw 51 provided along the inner peripheral surface of the casing 50. A shredded material discharge process (S4) in which the shredded material is discharged to the outside through and the cut waste steel wire is wound along the discharge screw (51),
After lifting the lowered air hammer 30 and casing 50, a waste steel wire removal process (S5) is performed to remove the waste steel wire wound around the discharge screw 51,
Before the crushed material discharging process (S4), the moving screw 64 provided on the outer peripheral surface of the cut tubing pipe body 61 is rotated by the rotating motion of the cut tubing pipe body 61, thereby removing the crushed concrete pile material and the crushed grouting part. After moving it to the side of the discharge screw 51 provided along the inner peripheral surface of the casing 50, crushed concrete pile and crushed concrete are passed through the discharge portion 43 provided on the casing driver auger 40 through the crushed material discharge process (S4). A method of crushing and drawing concrete piles, characterized in that the crushed material from the grouting section is discharged. delete