KR101080346B1 - Variable type excavating bit and apparatus for constructing pile using the same - Google Patents

Abstract

PURPOSE: A variable drilling bit and a pile construction apparatus using the same are provided to construct a pile by drilling through the inside of the pile and to excavate a hole greater than the outer diameter of a drilling bit. CONSTITUTION: A variable drilling bit comprises a main body(30), a fixed bit(40), an injection nozzle, and a pair of variable bits(60). The main body, one side of which is connected to a drilling rod, is rotated by receiving torque from the drilling rod. The fixed bit is installed in the bottom part of the main body. The injection nozzle is installed in the part of the main body in which the fixed bit is installed and injects high-pressure air, high-pressure water, or cement milk to the outer side of the main body. The variable bits are installed on both sides of the main body, above the fixed bit, via a variable shaft and protrude from or come into the radius of rotation of the fixed bit according to the movement of the variable shaft.

Description

Variable type excavating bit and apparatus for constructing pile using the same}

The present invention relates to a pile construction technique, and more particularly, to a variable drilling bit and a pile construction apparatus using the variable bit protruding out of the rotation radius of the fixed bit or into the rotation radius according to the direction of rotation of the drilling rod.

In general, in order to construct a building on a soft ground, it is first necessary to construct a soft ground by constructing a reinforcement such as a cylindrical or rectangular pile having a high strength that can securely support the pillar of the building or a water barrier to block water. Reinforce.

In particular, the construction method using piles is a method to transfer the load of the structure constructed on the ground to the ground.In order to improve the workability and secure structural rigidity efficiently by injecting piles firmly into a solid support layer of the ground, Construct using steel pile, concrete pile, composite pile, etc.

The method of constructing such piles is a type method of forcing the piles to the final support layer of the ground using driving, and drilling equipment is formed by drilling the ground first with excavation equipment such as Earth-Auger. There is a preboring method in which a pile is inserted into an excavation hole and then grouted around the pile to secure a predetermined support force.

The pile construction by the type construction method has advantages such as fast air, low construction cost, and large friction force of the pile main surface after construction. However, the pile method by the type construction method may cause damage to the pile because a large drag force is required when there is a hard layer in the middle of the ground during the driving operation before the tip of the pile reaches the final support layer of the ground. As a result, it is difficult to penetrate the target final support layer. That is, the pile by the conventional type method is bound to limit the maximum support capacity. In order to completely support the design load of the superstructure without any hitch, a large number of piles are required more than necessary, so the material cost and construction cost of piles are inevitably increased, and the air also becomes long, which contributes to the increase of overall construction cost.

The construction of the pile by the pre-boring method is an effective method when there is a high possibility that a hard layer exists on the ground, or when driving is difficult due to pollution such as noise and vibration, or when tip support is important. In the case of pile construction by the pre-boring method, the pile is excavated from the beginning to the end over the entire depth where the pile is installed, and not only is there a large amount of excavation, but also the pile is inserted after the unconditional drilling. Considering this, the waste of construction cost is a very big problem. When drilling, there is a high possibility that the collapse of the wall due to groundwater, etc. in the surface area is required to take additional measures, such as to install a casing to prevent the collapse of the wall, and the excavation work takes a lot of time, the air is long.

In addition, pile construction by the type and pre-boring methods requires a joint construction during pile penetration work when the target support layer is deeper than the pile pile. However, the welding method requires a lot of time and difficulty in welding. Require.

In addition, such a pile is constructed using a pile construction device for excavating the ground, and at this time, the pile is constructed after excavating the ground through the excavation bit mounted on the excavating rod. However, such a conventional drilling bit is excavated by the same diameter in both the front end and the rear end is also a constant diameter of the pile is constructed. Accordingly, there is a problem in that the bearing capacity of the tip of the pile is not good and the reinforcement of the soft ground cannot be effectively performed.

Accordingly, an object of the present invention is to provide a variable drilling bit and a file construction apparatus using the same that can be piled by drilling through the inside of the pile.

It is another object of the present invention to provide a variable drilling bit and a pile construction device using the same, which can be excavated by expanding the excavation hole larger than the outer diameter of the excavation bit when excavating with the excavation bit.

Still another object of the present invention is to provide a variable drilling bit and a pile construction device using the variable bit protruding out of the rotation radius of the fixed bit or entering the rotation radius stably in accordance with the rotation direction of the drilling rod.

In order to achieve the above object, the present invention provides a variable drilling bit for a pile construction device comprising a main body, a fixed bit, a plurality of injection nozzles and a pair of variable bits. One side of the main body is connected to the excavating rod, and rotates by receiving a rotational force from the excavating rod. The fixing bit is installed at the lower end of the main body. The plurality of spray nozzles are installed in a portion of the main body in which the fixing bit is installed to inject high pressure air, high pressure water or cement milk out of the outer surface of the main body. The pair of variable bits is provided on both sides of the main body above the portion where the fixed bit is installed via a variable shaft, and protrudes out of the rotation radius of the fixed bit according to the movement of the variable axis in the rotational direction of the main body. Or into the turning radius of the fixing bit.

In the variable drilling bit for the pile construction apparatus according to the present invention, the pair of variable bits may be installed on the main body on both sides of the main body via the variable axis to move horizontally while facing the rotation axis of the main body. have.

In the variable drilling bit for a pile construction apparatus according to the present invention, the pair of variable bits may include a pair of bit wings and a pair of guide blocks. The pair of bit wings is formed on one side of the shaft installation hole that can be coupled to the variable shaft. The guide block extends from the center of the rotation shaft of the main body to both sides, one side of the bit blade is inserted to be rotatable through the variable shaft, and is located within the rotation radius of the fixed bit.

In the variable drilling bit for a pile construction apparatus according to the present invention, the guide block may include a pair of guide plates and a fixed plate. The pair of guide plates protrude spaced apart from each other at intervals into which the one side of the bit wing can be inserted from the main body, and a long hole in which the variable shaft is coupled to each side of the inserted bit wing is formed. The fixing plate connects one side of the pair of guide plates to each other, and restrains the position of the bit wing protruding out of the rotation radius of the fixing bit.

In the variable drilling bit for the pile construction apparatus according to the present invention, the long hole of the guide plate is perpendicular to the center line passing through the center of the rotation axis of the main body at the same distance to both sides facing the center of the rotation axis of the main body. It may be formed to include the center line in the direction. At this time, while the variable shaft coupled to the long hole moves along the rotation direction of the main body, the variable bit coupled to the variable shaft protrudes out of the rotation radius of the fixed bit or enters the rotation radius of the fixed bit.

In the variable drilling bit for the pile construction apparatus according to the present invention, the bit wing, the portion protruding out of the portion supported by the fixing plate can be extended to the outer side of the fixing plate can be caught on the outside of the fixing plate.

And the present invention also provides a pile construction device using the above-described variable drilling bit, the pile construction device comprises a crane, a lower auger, an upper auger and the variable drilling bit. The crane has a leader installed on one side in a direction perpendicular to the ground. The lower auger is installed in the reader and moves up and down along the reader, and at least one pile is transferred to the lower part. The upper auger is installed on the leader above the lower auger and moves up and down along the leader, and a drilling rod inserted into a pile coupled to the lower auger is fastened to the lower auger, thereby rotating the drilling rod. And the variable drilling bit is fastened to the end of the drilling rod protruding to the bottom of the pile, the rotation radius of the variable bit is variable in accordance with the rotation direction according to the rotational force transmitted through the upper auger.

According to the present invention, since a pair of variable bits whose lengths are variable in accordance with the rotation direction of the main body is provided on both sides of the main body, the excavation hole can be expanded by digging larger than the outer diameter of the excavating bit. In particular, since a pair of variable bits are connected to the main body by a variable shaft, it can stably protrude out of the main body or enter into the main body. At this time, the long hole formed in the guide block in which the variable shaft is installed is formed in the direction perpendicular to the center line passing through the center of the rotating shaft of the main body at the same distance from both sides facing the center of the rotating shaft of the main body, so that The variable bits connected through the medium can be easily changed in length according to the rotation direction of the main body.

And since the injection nozzle which injects high pressure air, high pressure water, and cement milk is provided in the main-body part between a variable bit and a fixed bit, it is possible to perform an effective expansion excavation, spraying high pressure water with a variable bit.

1 is a view showing a pile construction apparatus using a variable drilling bit according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a portion A of FIG. 1.
FIG. 3 is a view illustrating a variable drilling bit of FIG. 1 and illustrating a state in which a variable bit is reduced.
4 is a bottom view of FIG. 3.
FIG. 5 is a view illustrating a variable drilling bit of FIG. 1 and illustrating an enlarged state of the variable bit. FIG.
6 is a bottom view of FIG. 5.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. In the following description, only parts necessary for understanding the operation according to the embodiment of the present invention will be described, it should be noted that the description of other parts will be omitted so as not to distract from the gist of the present invention.

The terms or words used in the specification and claims described below should not be construed as being limited to the ordinary or dictionary meanings, and the inventors are appropriate to the concept of terms in order to explain their invention in the best way. It should be interpreted as meanings and concepts in accordance with the technical spirit of the present invention based on the principle that it can be defined. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, various modifications that can be substituted for them at the time of the present application It should be understood that there may be equivalents and variations.

1 is a view showing a pile construction apparatus using a variable drilling bit according to an embodiment of the present invention. FIG. 2 is an enlarged view of a portion A of FIG. 1.

1 and 2, in the embodiment of the present invention, the pile construction apparatus 100 excavates using the variable drilling bit 20 through the inside of the pile 19 to pile the pile 19 into the support layer in the ground. It is a device to be installed on.

The pile construction device 100 according to the present embodiment includes a crane 12 having a leader 11, a bottom auger 13, a top auger 15, and a variable drilling bit 20. It is configured to include). In addition, the variable drilling bit 20 may further include a provision for providing high pressure air, high pressure water, or cement milk.

The crane 12 is provided with a leader 11 having a predetermined height in a direction perpendicular to the ground 71 on one side. The leader 11 guides the vertical movement of the lower auger 13 and the upper auger 15. For example, a reader having a vertical length of 30 m may be used as the reader 11, but is not limited thereto.

The lower auger 13 is installed in the reader 11 and moves up and down along the reader 11, and at least one pile 19 is fastened to the lower portion. That is, the lower auger 13 is a portion to which the pile 19 to be constructed is connected and performs a function of moving the pile 19 below the excavation hole 73 according to the excavation of the variable drilling bit 20. At this time, the lower auger 13 is provided with a motor, and moves downward along the excavation hole 73 formed while rotating the pile 19 at a constant speed according to the driving of the motor.

The upper auger 15 is installed in the reader 11 above the lower auger 13 and moves up and down along the leader 11. The upper auger 15 is fastened to the excavation rod 17 is inserted into the pile 19 coupled to the lower auger (13). The upper auger 15 transmits a rotational force to the fastened drilling rod 17 to drive the variable drilling bit 20. At this time, the upper auger 15 is provided with a motor, and the pile 19 is installed while the excavating rod 17 is rotated forward (counterclockwise) or reversely (clockwise) according to the driving of the motor.

At this time, when the lower and upper augers 13 and 15 move along the leader 11, the lower and upper augers 13 and 15 move together when the pile 19 is inserted into the excavation hole 73. Can move independently of one another.

Since the excavation rod 17 is spirally formed in the longitudinal direction on the outer circumferential surface, the excavation rod 17 is discharged out through the inside of the pile 19 for constructing the earth and sand generated during excavation.

And the variable drilling bit 20 is fastened to the end of the drilling rod 17 protruded to the bottom of the pile 19. Therefore, the variable drilling bit 20 receives the rotational force through the drilling rod 17 to perform the drilling construction. In this case, the variable drilling bit 20 may perform excavation construction by spraying high pressure air, high pressure water, or cement milk delivered through the excavation rod 17.

In particular, the variable drilling bit 20 enlarges or reduces the radius of rotation according to the direction of rotation of the drilling rod 17. That is, when the excavation rod 17 is rotated forward for the pile construction, the variable drilling bit 20 performs the excavation by expanding the excavation radius so that the pile 19 can be installed stably. In this case, the turning radius of the variable drilling bit 20 may be enlarged to correspond to the outer diameter of the pile 19. Then, after the excavation is completed, the excavating rod 17 is reversely rotated to form the variable excavation bit 20 in the turning radius of the pile 19 smaller than the inner diameter of the pile 19, and then the upper auger 15 is formed. Raises along the reader 11 and draws out of the pile 19 through the interior of the pile 19. That is, the variable drilling bit 20 may be drawn out to the outside through the inside of the pile 19, it is preferable that the size of the reduced variable drilling bit 20 is smaller than the size of the inner hole of the pile 19. .

This variable drilling bit 20 according to the present embodiment will be described with reference to FIGS. 2 to 6 as follows. 3 and 4 are views illustrating the variable drilling bit 20 of FIG. 1, and the variable bits 60 are in a reduced state. 5 and 6 are diagrams illustrating the variable drilling bit 20 of FIG. 1, in which the variable bit 60 is enlarged.

The variable drilling bit 20 is an drilling bit including a variable bit 60 that is enlarged or reduced in accordance with the rotation direction of the drilling rod (17 in FIG. 2), and includes a main body 30, a fixed bit 40, and an injection nozzle ( 50 and a pair of variable bits 60.

The main body 30 is one side is connected to the excavation rod 17, rotates by receiving a rotational force from the excavation rod (17). At this time, the main body 30 is a tubular shape having a predetermined length, and includes a fastening portion 31 to which the excavating rod 17 is connected to one side, that is, the upper end.

The fixing bit 40 is installed at the lower end of the main body 30. In this case, the fixed bit 40 includes a bit wing 41 and a plurality of bits 43. The bit blade 41 is provided on the outer circumferential surface of the main body 30 and is formed to correspond to the helical direction of the screw blade 17a of the excavation rod 17. The plurality of bits 43 are provided at the lower end of the bit blade 41. At this time, a pair of bit wings 41 may be installed on the outer circumferential surface of the main body 30, the fixing bit 40 excavates the lower portion of the main body 30 in accordance with the rotation of the main body (30).

The spray nozzle 50 is installed in a part of the main body 30 in which the fixing bit 40 is installed, and sprays high pressure air, high pressure water or cement milk out of the outer surface of the main body 30. In this case, a pair of spray nozzles 50 may be installed in the main body 30, and may be installed in a portion in which the main body 30 is exposed to the outside between the pair of bit wings 41. The pair of spray nozzles 50 may be installed at positions opposite to each other about the rotation axis of the main body 30.

In addition, the pair of variable bits 60 are installed on both sides of the main body 30 above the fixed shaft 40 through the variable shaft 63. The pair of variable bits 60 protrudes out of the rotation radius of the fixed bit 40 or enters the rotation radius of the fixed bit 40 according to the movement of the variable shaft 63 along the rotation direction of the main body 30. In this case, the pair of variable bits 60 may be installed in the main body 30 on both sides of the main body 30 via the variable shaft 63 which moves horizontally while facing the rotation axis of the main body 30.

The pair of variable bits 60 according to the present embodiment includes a pair of bit vanes 61 and a pair of guide blocks 65. The pair of bit wings 61 is formed with a shaft mounting hole to which the variable shaft 63 can be coupled to one side, and a plurality of bits 62 are provided at the bottom thereof. The pair of guide blocks 65 extend from the center of the rotation axis of the main body 30 to both sides, one side of the bit blade 61 is inserted and rotatably installed via the variable shaft 63, the fixed bit ( Located within a radius of rotation of 40).

The guide block 65 includes a pair of guide plates 65a and a fixed plate 65b. The pair of guide plates 65a protrude from the main body 30 to the outside at intervals at which one side of the bit wing 61 can be inserted, and the variable shaft 63 is disposed at one side of the inserted bit wing 61. Long holes 67 to be combined are formed. The fixing plate 65b connects one side of the pair of guide plates 65a to each other, and restrains the position of the bit blade 61 protruding out of the rotation radius of the fixing bit 40. At this time, the bit wing 61 protrudes backward so that the opposite side of the side where the plurality of bits 62 are formed can be caught on the outer side of the fixing plate 65b so that it can be stably restrained by the outer side of the fixing plate 65b.

At this time, the long hole 67 of the guide plate 65a is the center of the rotation axis of the main body 30 at the same distance to both sides facing the center of the rotation axis of the main body 30 so that the bit wing 61 can be folded stably. It is formed to include the center line in a direction perpendicular to the center line passing through the. Accordingly, the bit shaft 61 coupled to the variable shaft 63 protrudes out of the rotation radius of the fixed bit 40 while the variable shaft 63 coupled to the long hole 67 moves along the rotation direction of the main body 30. It enters the radius of rotation of the stationary bit 40.

In addition, since the long hole 67 is formed as described above, when the main body 30 is rotated forward and the bit blade 61 is unfolded, it is constrained by the fixing plate 65b of the guide block 65, and centers the main body 30. Bit wings 61 spread in both sides to be unfolded to achieve 180 degrees with respect to the rotation axis of the main body 30.

In addition, the plurality of bits 62 formed on the bit blades 61 may include the bit blades 61 in order to prevent mechanical interference from occurring while the main body 30 is reversely rotated and folded into the guide block 65. When inserted into the guide block 65, a plurality of bits 62 are formed in the portion of the bit wing 61 exposed out of the guide block 65.

Referring to the operation relationship according to the reverse rotation and forward rotation of the variable drilling bit 20 according to this embodiment as follows.

First, as shown in FIGS. 2 to 4, when the main body 30 connected to the drilling rod 17 reversely rotates, the variable bit 60 moves into the rotation radius of the fixed bit 40. That is, for example, as shown in FIGS. 5 and 6, when the variable bit 60 starts to rotate in a state where the variable bit 60 protrudes out of the rotation radius of the fixed bit 40, the variable bit 60 is inversely rotated by inertia. The variable shaft 63 rotates in the opposite direction to the rotating shaft. As a result, the variable bit 60 is spaced apart from the fixed plate 65b of the guide block 65 and moves along the groove between the pair of guide plates 65a to move into the rotation radius of the fixed bit 40. That is, the variable bit 60 rotates in the positive direction opposite to the rotation direction of the main body 30 and moves toward the main body 30.

At this time, the turning radius of the fixing bit 40 is smaller than the inner diameter R1 of the pile 19 so that the variable drilling bit 20 can be drawn out through the inside of the pile 19. Of course, the turning radius of the variable bit 60 in the folded state is also smaller than the inner diameter R1 of the pile 19.

Next, as shown in FIGS. 2, 5 and 6, when the main body 30 connected to the drilling rod 17 rotates forward, the variable bit 60 moves out of the rotation radius of the fixed bit 40. That is, for example, as shown in FIGS. 3 and 4, when the variable bit 60 starts to rotate in the state where the variable bit 60 is located within the rotation radius of the fixed bit 40, the variable bit 60 is in the forward rotation direction by inertia. The variable shaft 63 is rotated to the rotation axis in the opposite direction. As a result, the variable bit 60 moves along the groove between the pair of guide plates 65a on the main body 30 to be in close contact with the fixed plate 65b, and moves out of the rotation radius of the fixed bit 40. That is, the variable bit 60 rotates in the reverse direction opposite to the rotation direction of the main body 30 to move out of the rotation radius of the fixed bit 40.

In this case, the variable drilling bit 20 has a larger outer diameter than the outer diameter of the pile 19 so that the drilling hole 73 can be formed larger than the outer diameter R2 of the pile 19. .

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented specific examples to aid understanding, and are not intended to limit the scope of the present invention. In addition to the embodiments disclosed herein, it is apparent to those skilled in the art that other modifications based on the technical idea of the present invention may be implemented.

11: leader 13: lower auger
15: upper auger 17: drilling rod
19: file 20: variable drilling bit
30: body 40: fixed bit
41: Beat Wings 43: Beat
50: injection nozzle 60: variable bit
61: Beat Wings 62: Beat
63: variable axis 65: guide block
65a: guide plate 65b: fixed plate
67: Long Hole 71: Ground
73: excavation 100: pile construction device

Claims (7)

Variable drilling bit for pile construction device,
One side is connected to the excavating rod, the main body to rotate to receive a rotation force from the excavating rod;
A fixed bit installed at a lower end of the main body;
A plurality of injection nozzles installed in a portion of the main body in which the fixing bit is installed, for injecting high pressure air, high pressure water or cement milk out of the outer surface of the main body;
The fixed bit is installed on both sides of the upper body rather than the installed portion via a variable shaft, but on both sides of the main body is installed on the main body via the variable shaft to move horizontally facing the rotation axis of the main body, And a pair of variable bits protruding out of the rotation radius of the fixed bit or entering the rotation radius of the fixed bit according to the positional movement of the variable shaft along the rotational direction of the main body.
The pair of variable bits,
A pair of bit blades having a shaft installation hole formed therein to which the variable shaft can be coupled, and having a plurality of bits installed at one side thereof;
And a pair of guide blocks extending from the center of the rotating shaft of the main body to both sides, and having one side of the bit wing inserted therein to be rotatable through the variable shaft and positioned within a rotation radius of the fixed bit.
The guide block,
A pair of guide plates which are spaced apart at intervals at which one side of the bit wing can be inserted to the outside from the main body, and a long hole to which the variable shaft is coupled to one side of the inserted bit wing;
And a fixing plate connecting one side of the pair of guide plates to each other, and restraining the position of the bit blade protruding out of the rotation radius of the fixing bit.
The bit wing,
A part protruding out of the part supported by the fixing plate extends toward the outer side of the fixing plate and is caught on the outer side of the fixing plate, and the opposite side of the side where the plurality of bits are formed protrudes backward so that the outer side of the fixing plate can be caught. ,
And the plurality of bits formed in the bit wing are installed in the bit wing portion exposed out of the guide block when the bit wing is inserted into the guide block. The method of claim 1,
The pair of bit wings unfolded around both sides of the main body is a variable excavation bit for a pile construction device, characterized in that 180 degrees with respect to the rotation axis of the main body. delete delete According to claim 1, The long hole of the guide plate,
It is formed to include the center line in a direction perpendicular to the center line passing through the center of the rotation axis of the main body at the same distance to both sides facing the center of the rotation axis of the main body,
The variable bit coupled to the variable shaft moves along the direction of rotation of the main body, and the variable bit coupled to the variable shaft protrudes out of the rotation radius of the fixed bit or enters the rotation radius of the fixed bit. Variable drilling bit for construction equipment. delete A pile construction apparatus using the variable drilling bit according to any one of claims 1, 2 or 5,
A crane having a leader installed at one side in a vertical direction on the ground;
A lower auger installed on the reader and moving up and down along the leader, the lower auger being fastened to at least one pile;
An upper auger installed in the reader above the lower auger and moving up and down along the leader, and having an excavation rod inserted into a pile coupled to the lower auger at a lower portion thereof to rotate the excavating rod;
The variable drilling bit is fastened to the end of the drilling rod protruding to the bottom of the pile, the rotation radius of the variable bit is variable in accordance with the rotational direction according to the rotational force transmitted to the drilling rod through the upper auger;
File construction apparatus using a variable excavation bit comprising a.

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