KR20200025138A - Pile pullout apparatus - Google Patents

Abstract

The present invention provides a pile drawing device. The pile drawing device of the present invention comprises: an excavation pipe (20) mounted on an auger (4) of a crane (2), formed in a tubular shape of which the upper and lower ends are penetrated, and having a pile (7) inserted thereinto; a plurality of support arms (30) provided on the crane (2) and disposed at least two points outside the excavation pipe (20); an excavation support (40) provided on the auger (4) of the crane (2); and an excavation driving wire (40) coupled to the excavation support (40) through the support arm (30) from an excavation driving drum provided on the crane (2) so that, when the excavation driving drum rotates, the excavation support (40) allows the excavation pipe (20) to be drawn into the ground (5) around the pile (7) buried in the ground (5). The support arms (30) are disposed in at least one pair at positions symmetrical to each other based on the center of the excavation pipe (20) coupled to the excavation pipe (20) support of the crane (2). Therefore, the pile drawing device can excavate hard ground without difficulty.

Description

Pile pullout apparatus

The present invention relates to a file drawing device, and more particularly, to a file drawing device of a new configuration to quickly and easily excavate the ground in which the file is embedded to facilitate the file drawing operation.

The structure for transferring various loads to the ground is called the foundation structure, and the construction of the foundation structure is collectively called the foundation construction. In the case of foundation construction, if the ground has sufficient strength, the foundation is directly placed on the ground. Structures can be constructed, but if the soil is weak, the foundations will be improved or piled up to build the foundation structure. The pile construction is a very important construction for the foundation of the structure.

On the other hand, as a method of constructing piles in the foundation construction, the method of placing piles as a hammer is installed and the piles are formed by excavating the ground through a screw mounted in an auger machine mounted on the aircraft. The excavation method is used to insert a sheet pile into a pile ball. At this time, the method of pouring is a hammer when the upper end of the pile due to the problem that the impact sound and vibration occurs a lot due to the problem of use is mainly used in the excavation method.

In the excavation method, the drilling work is carried out using the auger screw installed in the leader of the cruiser, and when the drilling work is completed through the auger screw, the screw for drilling the pile hole is rotated in reverse to the drilled drilling hole. To prevent the collapse of soil piles in the drilled pile hole after pulling out, the reader is operated to lift the sheet pile provided separately, and the drilled pile using the vibrator installed separately in the auger screw You will do the root work to install the seat pile on the ball.

However, in the past, digging down the ground where the pile is embedded, and meets a harder ground (for example, rock) than other grounds, it takes a long time to dig down the hard ground with augerscrew, it is not easy to dig and go down There is a problem in that the auger that rotates the screw is heavily loaded.

Korea Patent Registration No. 10-1808960 (registered Dec. 7, 2017) Korean Patent Registration No. 10-1840640 (registered on March 15, 2018) Korean Patent Publication No. 10-2016-0109674 (Published September 21, 2016)

It is an object of the present invention to provide a new configuration of the file drawing device that can excavate without drilling delay or excavation difficulty even when encountering a hard ground such as a rock while digging down the ground in which the pile is embedded .

According to the present invention for solving the above problems, it is mounted to the auger of the crane and made of a tubular shape penetrated to the upper and lower ends and the drilling pipe is inserted into the inside; A plurality of support arms provided on the crane and disposed at least two outside of the drilling pipe; An excavation support provided in the crane; An excavation driving coupled to the excavation support portion from the excavation movable drum provided in the crane via the support arm to dig the excavation pipe into the ground around the pile buried in the ground by the excavation support portion when the excavation movable drum is rotated. Provided is a file drawing device, characterized in that configured to include a wire.

The support arms are arranged in at least one pair at positions symmetrical to each other with respect to the center of the drilling pipe coupled to the drilling pipe support of the crane.

A pair of support arms arranged in a symmetrical position with respect to the center of the rig is a support arm set, and the support arm sets are provided with at least two of the support arms based on the center of the rig.

Each support arm constituting the support arm set is provided with a wire through hole, and the excavation driving wire passes through the wire through hole and is coupled to an excavation support part provided in the crane.

The excavation support portion, the upper support roller provided in the auger of the crane; And a lower support roller provided on the support arm, wherein the excavation driving wire passes through the upper support roller and the lower support roller, and is coupled to the excavation movable drum.

Both ends of the excavation driving wire is connected to the excavation movable drum.

Characterized in that it further comprises a spiral portion protruding on the outer peripheral surface of the excavation pipe.

The spiral portion is composed of a spiral pipe having a hollow portion therein, the lower end portion of the spiral portion communicates from the outer circumferential surface of the drilling tube to the inner circumferential surface, water is injected into the inner hollow portion of the spiral portion and the drilling tube is supplied with water to the inside It is characterized in that configured to.

The drilling pipe is mounted to the rotary drive unit provided in the auger of the crane, the drilling pipe is rotated by the drive of the rotary drive, characterized in that the drilling bit is provided at the lower end of the drilling pipe.

The auger of the crane is provided with a ring-shaped water injection tube, the upper end of the spiral portion is slidably coupled to the water injection tube, and the inner hollow portion of the spiral portion is in communication with the inner injection hollow portion of the water injection tube Characterized in that configured.

The drilling pipe is characterized in that a plurality of water jet holes communicated from the inner surface to the outer surface.

The file drawing device according to the present invention is the excavation pipe, even if the file drawing device according to the present invention encounters a harder ground (for example, rock) while digging down the ground in order to draw the file from the ground. Since the additional driving force is pushed down by the excavation driving wire, it is possible to dig down even the hard ground which is difficult to excavate, such as hard rock, which prevents the entire ground excavation time to dig down the ground. Has the effect.

On the other hand, the above effects are part of the effects of the present invention, the present invention has a variety of effects in addition to the above effects, it will be understood that the features of the present invention is not limited to the above effects only.

1 is a perspective view schematically showing the structure of a file drawing apparatus according to the present invention
2 is a plan view of a file drawing apparatus according to the present invention
3 is a side view of a file drawing apparatus according to the present invention;
Figure 4 is a side view showing the process of excavating the ground around the pile by the file drawing apparatus according to the present invention
Figure 5 is a cross-sectional view showing the process of excavating the ground around the pile by the file drawing apparatus according to the present invention
Figure 6 is a side view showing a state of excavating the ground such as the rock around the pile by the file drawing device according to the present invention
7 is an enlarged side cross-sectional view showing a state in which the ground around the pile is excavated by the pile drawing apparatus shown in FIG.
8 is a perspective view of a file drawing apparatus according to another embodiment of the present invention
9 is a side view of FIG. 8;
FIG. 10 is an enlarged side sectional view showing a state in which the ground around the pile is excavated by the pile drawing apparatus shown in FIG. 8; FIG.
11 is a view schematically showing the structure of a main part of a file drawing apparatus according to another embodiment of the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description. In addition, in describing the present invention, if it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the component of this invention, terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. For example, if a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but between each component. It is to be understood that another component may be "connected", "coupled" or "connected".

Referring to the drawings, the pile drawing device according to the present invention is an excavation pipe 20 mounted on the auger 4 of the crane 2, a plurality of support arms 30 and excavation support 40 and excavation driving wire 40 ).

The crane 2 is provided with a wire support 3, the wire (6) wound on the excavation movable drum provided in the crane 2 is connected to the auger 4 via the wire support (3) It is connected via a connection means such as. As the wire winding drum of the crane 2 rotates in one direction when digging down the ground 5 around the pile 7 with the drilling pipe 20, the wire 6 is lowered from the upper end of the wire support 3. Loosen and retract the drilling pipe 20 from the drilling hole digging around the pile 7 to rotate the wire winding drum of the crane 2 in the opposite direction so that the wire 6 is connected to the wire support 3. Wind up to the top of the. As the excavation movable drum of the crane 2 rotates, the wire 6 descends from the wire support 3 or rises toward the upper end of the wire support 3, thereby elevating the auger 4. Excavation pipe 20 connected to the auger 4 is also raised and lowered as the auger 4 is raised.

The drilling pipe 20 is mounted to the auger 4 of the crane (2). The auger 4 of the crane 2 is provided with a rotary driving unit such as a motor, and the upper end of the drilling pipe 20 is connected to the rotary driving unit, so that the drilling tube 20 can be rotated by driving the rotary driving unit. have. When the rotation drive unit is a motor, the upper end of the excavation pipe 20 is connected to the motor shaft of the motor by a connecting means such as a coupler, and the excavation pipe 20 is rotated according to the rotation of the motor shaft of the motor. . The drilling pipe 20 has a hollow portion communicated with the upper and lower ends therein. Excavation pipe 20 is an example consisting of a circular pipe shape. The pile 7 (PHC pile 7) is configured to be inserted into the drilling pipe (20). A plurality of excavation bits 22 are provided at the lower end of the excavation pipe 20, and the excavation bits 22 are configured to be excavated and pressed by crushing the ground (particularly, breaking rock 5SG in the ground). do.

The crane 2 is provided with a plurality of support arms 30. A drawer wire 6 is connected to the auger 4 of the crane 2, and the drawer wire 6 may be connected to a take-up drum of the crane 2, in front of the crane 2. The plurality of support arms 30 provided are disposed at least two outside of the drilling pipe 20. In the case of two support arms 30, two support arms 30 are disposed at positions symmetrical with respect to the center of the rig 20. It is also possible to have four support arms 30. In the case of four support arms 30, two support arms 30 are arranged at positions symmetrical with respect to the center of the rig 20.

The crane 2 is provided with an excavation support 40. The excavation support part 40 includes an upper support roller 42 and a lower support roller 44.

The upper support roller 42 is provided in the auger 4 of the crane (2). When viewed from above the auger 4 is provided with an upper support roller 42, one at the front and one at the back. In the case of four upper support rollers 42, the upper support rollers 42 are disposed two at the front and the rear when the auger 4 is viewed from above.

The lower support roller 44 is provided on the support arm 30 in front of the crane 2. In the case where the support arms 30 are two, the lower support rollers 44 are provided at the front and the rear, respectively, when the auger 4 of the crane 2 is viewed from above. In the case of four lower support rollers 44, two lower support rollers 44 are disposed at the front and the rear when the auger 4 is viewed from above. The lower support roller 44 is preferably disposed at a lower position of the upper support roller 42.

The excavation driving wire 40 is coupled to the excavation support part 40 through the support arm 30 from the excavation movable drum provided in the crane 2, and thus, by the excavation support part 40 when the excavation movable drum is rotated. The drilling pipe 20 is added to the force to easily dig into the ground (5) around the pile (7) buried in the ground (5).

At this time, both ends of the excavation driving wire 40 is connected to the excavation movable drum provided in the crane 2 and at the same time excavating the outer peripheral surface of the upper support roller 42 and the outer peripheral surface of the lower support roller 44 excavation driving wire 40 Pass by). When the support arm 30 provided in the crane 2 is located at two places, two excavation driving wires 40 are connected to the excavation movable drum of the crane 2 and two excavation driving wires 40 are simultaneously provided. It passes through the wire guide hole formed in the two support arms 30 to pass through the upper support roller 42 and the lower support roller 44. In the drawings, the excavation driving wire 40 is shown coupled to the upper support roller 42 and the lower support roller 44 via the structure.

The process of drawing out the pile 7 embedded in the ground 5 by the file drawing apparatus of the present invention having the above-described configuration will be described below.

The drilling pipe 20 is placed on the road surface of the ground so that the pile 7 embedded in the ground 5 can enter the inside of the drilling pipe 20 by excavation of the ground.

When the excavation driving drum of the crane 2 is rotated in one direction (rotation in the direction in which the excavation driving wire 40 is pulled down) and the excavation driving wire 40 is wound around the excavation driving drum, the excavation driving wire 40 is The excavation pipe 20 digs into the ground together with the auger 4 of the crane 2 by the force of pushing down the upper support roller 42, and is embedded in the ground as the excavation pipe 20 digs into the ground. The pile 7 which has been made enters the inside of the excavation pipe 20. At this time, the drilling pipe 20 is rotated by the rotary drive device provided in the auger (4) of the crane (2) while the pile driving force by the excavation driving wire 40 pushes down the upper support roller (7) Excavate this studded ground and descend. An excavation bit 22 is provided at the lower end of the excavation pipe 20 so that the excavation bit 22 penetrates the ground by the rotation of the excavation pipe 20 so that the drilling pipe 20 goes down while digging the ground. Can be configured. At this time, the auger (4) equipped with the drilling pipe (20) is connected to the drawing rope drum provided in the crane (2) via a drawing rope, the drilling pipe (20) while drilling down the ground while the Since the drawing rope drum also rotates in one direction to release the drawing rope, the auger 4 of the crane 2 also goes down together with the drilling pipe 20.

On the other hand, the excavation pipe 20 while digging down the ground around the pile (7) and meets a harder ground than the other ground, such as rock (5SG), the excavation driving wire 40 pulls the excavation pipe 20 Because of the pressing force, even a solid ground such as rock (5SG) can be smoothly excavated.

When the drilling pipe 20 is dug down to near the lower end of the pile 7 to draw the pile 7, the lifting rope drum of the crane 2 is opposite to the rotational direction in which the drawing rope goes down. In the reverse direction to lift the drilling pipe 20 together with the auger 4 from the drilling hole in the ground. At this time, the auger (4) is provided with a pile (7) grip means, the auger (4) and the drilling pipe 20 in the state in which the pile (7) is gripped by the pile (7) grip means The file 7 may also be configured to draw together when raised. Alternatively, the auger 4 and the excavation pipe 20 may be first lifted from the excavation hole of the ground, and then the pile 7 may be lifted from the excavation hole of the ground by using a separate drawing device.

Therefore, the pile drawing device according to the present invention, even when digging down the ground in the work for drawing the pile (7) in the ground and meets a harder ground (for example, rock (5SG)) than the other ground, the drilling pipe Since the force that pushes down 20 by the excavation driving wire 40 is further applied, even the hard ground that is difficult to excavate, such as a hard rock (5SG), can be dug down quickly, so that the overall ground digging down the ground It has the effect of preventing the case of a long time of excavation. In addition, even when the hard ground, such as rock (5SG) is added to the force to push down the drilling pipe 20 can be dug out the hard ground more easily, the auger (4) portion for rotating the drilling pipe 20 It can also prevent the problem of excessive load.

Meanwhile, according to the present invention, the upper support rollers 42 and the lower support rollers 44 are respectively provided at positions symmetrical with respect to the center of the excavation pipe 20, and the excavation pipe 20 is based on the center. The excavation driving wires 40 are disposed at symmetrical positions, respectively, so that the excavation driving wires 40 and the upper support rollers 42 are disposed in a balanced position at the symmetrical positions when the ground is dug into the excavation pipe 20. And the lower support roller 44 and the plurality of support arms 30 allow the excavation pipe 20 to be dug down in a balanced state without being biased to either side, so it is safe for ground excavation work. While the operation is possible, the excavation pipe 20 is not biased to one side and collides with other equipment such as the crane 2 or the support device, thereby ensuring the safety of the work more reliably, The pile (7) is to increase the safety even in the drawing operation.

In addition, the pile 7 is provided only by the plurality of support arms 30, the plurality of balanced upper support rollers 42 and the lower support rollers 44, and the plurality of excavation driving wires 40 provided in the crane 2. Since the excavation work of the excavation pipe 20 for drawing can be made, the structure of the equipment itself for the file 7 drawing work is also very simplified compared to the existing.

On the other hand, the present invention further includes an excavation guide protrusion 24 protruding from the outer peripheral surface of the drilling tube 20 while spirally extending the drilling tube 20 along the outer peripheral surface.

Therefore, when the drilling pipe 20 digs the ground around the pile 7, the portion of the drilling guide protrusion 24 is in contact with the ground, and the outer circumferential surface of the drilling tube 20 is the ground of the drilling around the pile 7. Being away from the can reduce the load resistance during the rotation of the drilling pipe 20 at least, the crane for rotating the drilling pipe 20 by minimizing the load resistance when ground excavation by the rotation of the drilling pipe 20 (2) To prevent a large load from being placed on the auger (4) portion of the crane, and to increase the life of the auger (4) portion of the crane (2) due to the reduced resistance of the auger (4) portion of the crane (2) ) Also increases the life of the.

In addition, the excavation guide protrusion 24 is formed in a spiral pipe shape having a hollow portion therein, the upper end of the excavation guide protrusion 24 is disposed at the upper end of the outer peripheral surface of the excavation pipe 20, the excavation guide protrusion 24 The lower end of the excavation tube 20 is arranged to be disposed at the lower end of the outer circumferential surface or penetrate the excavation tube 20 to be disposed at the lower end of the inner circumferential surface of the excavation pipe 20. In addition, the outside of the crane 2 or the drilling pipe 20 is provided with a water supply, the water supply pipe connected to the water supply is configured to spray water to the upper end of the excavation guide protrusion (24).

Accordingly, water is injected from the water supply pipe to the upper end of the excavation guide protrusion 24 while digging into the ground around the pile 7 by the excavation pipe 20, and the water into the inner hollow of the excavation guide protrusion 24. Since the water discharged to the lower end of the excavation guide protrusion 24 is supplied toward the excavation bit 22 provided at the lower end of the excavation pipe 20, the excavation pipe 20 and the excavation bit 20 during excavation of the ground ( Since 22) is cooled by water without overheating, the drilling pipe 20 and the drilling bit 22 are prevented from being burned out by the resistance to excavate the ground, and the ground is more excavated by supplying water to the ground. It is easier and especially helpful in digging hard grounds compared to other grounds such as rock (5SG).

On the other hand, the excavation guide protrusion 24 is provided with a plurality of water discharge holes 24H communicated to the inner and outer surfaces, so that a part of the water passing through the hollow inside the excavation guide protrusion 24 is the water discharge hole 24H Since it is discharged through the), during the excavation of the ground by the rotation of the drilling pipe 20 is further supplied to the ground has the effect that the excavation work of the ground becomes easier.

In addition, in the present invention, the excavation operation may be made by applying vibration while rotating the excavation pipe 20. The auger head is rotatably mounted on the auger 4 of the crane 2, and the auger head is rotatable by the hydraulic motor 54 provided in the auger 4. The auger head may be configured to be connected to the motor shaft of the hydraulic motor 54 provided in the auger (4). The auger head of the auger 4 may be configured such that the drilling pipe 20 is connected. The auger 4 is provided with a vibrating unit 52, connected to the auger 4, and the vibrating unit 52 is a unit that vibrates by hydraulic pressure. At this time, the vibration unit 52 and the hydraulic motor 54 are connected to the vibration hydraulic line of the hydraulic device 50 and the hydraulic line for the hydraulic motor 54, respectively. On the other hand, the vibration unit 52 may be composed of a hydraulic cylinder, the cylinder rod of the hydraulic cylinder is connected to the slip groove formed in the circumferential direction on the auger head, when the auger head rotates the cylinder of the hydraulic cylinder The rod is slipped along the slip groove of the auger head so that the hydraulic cylinder can remain fixed to the auger 4. Preferably, a buffer spring is interposed between the lower end of the auger 4 and the upper end of the auger head. The shock absorbing spring will act as a shock absorber when the auger head vibrates.

Therefore, the auger head and the excavation pipe 20 are rotated by the hydraulic motor 54 to dig the ground around the pile, and the vibration unit 52 applies the vibration to the auger head to the excavation pipe 20. By vibrating, the ground around the pile can be dug out. When the vibration unit 52 is composed of a hydraulic cylinder, a plurality of hydraulic cylinders provided in the auger 4 may be quickly and repeatedly supplied with hydraulic pressure to rapidly expand and contract the cylinder rods of the plurality of hydraulic cylinders. Vibration occurs, and the drilling pipe 20 connected to the auger head may be configured to vibrate. In particular, when the drilling pipe 20 is rotated by the hydraulic motor 54 when it encounters a ground such as a rock harder than other parts of the ground around the pile, the vibration unit 52 vibrates to the auger head. Due to the vibration of the drilling pipe 20 connected to the auger head it is possible to dig more easily and quickly the ground around the pile. That is, in the present invention, while applying the vibration vibrating up and down to the drilling pipe 20 connected to the auger head of the auger 4 at the same time it is possible to dig the ground around the pile faster by rotating the drilling pipe 20, Vibration is applied while rotating the excavation pipe 20 to increase the excavation efficiency when digging a relatively hard ground such as a rock.

The terms "comprise", "comprise" or "have" described above mean that the corresponding component may be included unless specifically stated otherwise, and thus, other components are not excluded. It should be construed that it may further include other components. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are illustrative in all respects and not limited. The invention is only defined by the scope of the claims.

2. Crane 3. Wire Support
4. Auger 5. Underground
5SG. Rock 6. wire
7. File 20. Excavator
22. Drilling bit 24. Drilling guide protrusion
24H. Water Discharge Holes 30. Support Arm
40. Excavation support 42. Upper support roller
44. Lower support roller

Claims (8)

Mounted on the auger (4) of the crane (2) is made of a tubular shape penetrated to the upper and lower ends and the excavation pipe 20 is inserted into the pile (7);
A plurality of support arms (30) provided on the crane (2) and disposed at least two outside of the drilling pipe (20);
An excavation support part 40 provided in the crane 2;
It is connected to the crane 2 and the excavation support part 40 so that the excavation pipe 20 is dug into the underground 5 around the pile 7 embedded in the underground 5 by the excavation support part 40. Excavation driving wire 40; pile drawing device comprising a.
The method of claim 1,
The excavation driving wire is coupled to the excavation support part 40 via the support arm 30 from the excavation movable drum provided in the crane 2, by the excavation support part 40 when the excavation movable drum is rotated. Pile drawing device, characterized in that to dig the excavation pipe 20 into the ground (5) around the pile (7) embedded in the ground (5).
The method of claim 1,
The support arm 30 is at least one pair of pile drawing device, characterized in that arranged in a position symmetrical with respect to the center of the drilling pipe 20 coupled to the auger (4) of the crane (2) .
The method of claim 3,
The pair of support arms 30 arranged in a symmetrical position with respect to the center of the drilling pipe 20 is a support arm set, and the support arm sets are at least two of the center of the drilling pipe 20 based on the center of the drilling pipe 20. File drawing device, characterized in that provided with symmetry above.
The method of claim 2,
Each support arm 30 constituting the support arm set is provided with a wire passage hole, and the excavation support part 40 provided in the crane 2 through the excavation driving wire 40 passes through the wire passage hole. File drawing device, characterized in that coupled to.
The method of claim 1,
The excavation support part 40,
An upper support roller 42 provided on the auger 4 of the crane 2;
And a lower support roller 44 provided on the support arm 30.
Pile pulling device, characterized in that coupled to the excavation movable drum provided in the crane (2) passing through the excavation driving wire (40) via the upper support roller (42) and the lower support roller (44).
The method of claim 6,
Pile drawing device, characterized in that both ends of the excavation driving wire 40 is connected to the excavation movable drum.
The method of claim 1,
The auger head is rotatably mounted on the auger 4, and a vibration unit 52 provided in the auger 4 is connected to the auger head to mount the auger head 20 mounted on the auger head. File drawing device, characterized in that configured to apply the vibration while rotating.

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