KR20110028147A - Underground Excavation Precision Boring Auger Vig and Underground Precision Boring Construction Method - Google Patents

Abstract

PURPOSE: A precision boring auger bit for drilling ground is provided to reduce an excavation process time and to improve the precision of construction by improving the directivity of excavation work. CONSTITUTION: A precision boring auger bit for drilling ground comprises an auger part(10), an air hammer part(20), and a drilling bit part(30). The auger part has a screw axis(12). A screw wind(13) is formed in the outside of the screw axis. The air hammer part progresses using the compressed air pressure flowing in a compressed air pressing part(21). The drilling bit part forms a pilot bit(32) on the center leading end of a bit body part(31).

Description

Precision Boring Auger Bit for Underground Excavation and Underground Boring Construction Method

The present invention relates to an underground excavation auger bit boring by drilling the ground, more specifically, in the process of excavating the underground ground bent in an undesired direction due to the centrifugal force due to the rotational movement of the excavation equipment The present invention relates to a precision boring auger for underground excavation and to a precision boring construction method using the same, which prevents and improves the straightness during the excavation of the underground.

In general, to protect the ground during the construction of large-scale earthquakes or tunnels, such as infrastructure construction and urban redevelopment construction, steel piles or concrete piles are installed in the ground to impact the piles. Although a blow-pile press-injection method for press-fitting has been performed, the method has been used in a limited way due to the disadvantage of impacting the surrounding buildings by the vibration generated when the pile hit.

Conventionally, as a method for compensating for this, a casing auger method for drilling a ground by rotating a cylindrical casing auger by additionally installing a cylindrical skirt tube that can be decelerated and rotated in conjunction with an auger screw drive shaft of a ground excavator is used. In addition, even in the case of installing the support pillar for the construction of the underground structure, the first method of drilling the auger screw of the ground excavator at the position where the support pillar is to be installed, and then the method of constructing the support pillar by casting with reinforced concrete in the perforated place have.

As described above, in order to install a pile or construct a support column, first, the ground is required to be drilled by auger screw, and in the case of digging underground ground with the auger screw, in particular, a long distance In case of drilling, there was a problem of boring out of the position to be drilled in the ground due to the influence of centrifugal force due to the rotational motion of the auger screw, and re-excavation should be performed again, thereby increasing the construction period and cost. there was.

Accordingly, the present invention has been made to solve the above problems, by improving the straightness of the excavation work when excavation of the underground ground to be able to drill the underground ground precisely to the desired position, thereby improving the precision of construction, underground excavation The present invention provides a precision boring auger for underground excavation that can reduce the construction cost of drilling by shortening the construction period of drilling and underground precision boring construction method using the same.

In one embodiment of the present invention for solving the above-described problems, the inner center portion is provided with a screw shaft 12 is formed with a compressed air movement path 11 in the longitudinal direction, the outer peripheral surface of the screw shaft 12 in length Auger 10 is formed with a screw blade 13 in the direction; An air hammer body portion 25 coupled to the distal end of the auger portion 10 is provided, and the compressed air is compressed into a predetermined space at an inner central portion of the air hammer body portion 25 so as to communicate with the compressed air movement path 11. The pressurizing unit 21 is formed, and with the rotational movement, the air hammer unit 20 to shock forward through the instantaneous pressurization of the compressed air flowing into the compressed air pressurizing unit 21; And a bit body part 31 for drilling the ground is coupled to the tip of the air hammer part 20, and a pilot bit 32 is formed to protrude to a predetermined length at the center tip of the bit body part 31. Bit portion 30; provides an underground drilling precision boring auger bit 100, characterized in that consisting of.

Underground drilling precision boring auger bit 100 according to the present invention, a hollow cylindrical housing body portion 22 is provided, a plurality of movement in the longitudinal direction at a predetermined interval on the outer peripheral surface of the housing body portion 22 An air hammer housing part 24 having a guide piece 23 formed in a radial shape, the air hammer part 20 being coupled to the inside of the hollow housing body part 22; And a hollow cylindrical pipe, wherein the tip shoe 41 is coupled to the outer circumferential surface of the tip portion, and the auger portion 10 and the air hammer housing portion 24, which move forward with the rotational movement, are located in the inner hollow. It further comprises a guide casing pipe (40), the inner portion of the bit body 31 and the pilot bit 32 is in communication with the compressed air pressurizing portion 21 is the compressed air pressurizing portion 21 A compressed air discharge path 33 through which a predetermined amount of compressed air is introduced therefrom and moved out may be formed.

In addition, the underground precision boring construction method using the underground drilling precision boring auger bit 100 according to the present invention, in the underground precision boring construction method for drilling the ground of the ground of the desired position, along the position to be bored in the ground Forming a pilot hole 50 of the aperture; Placing the pilot hole (50) at the center of the hollow induction casing pipe (60), and then pressing the induction casing pipe (60) to a predetermined depth in the ground; And

The inner center portion is provided with a screw shaft 12, the compressed air movement path 11 is formed in the longitudinal direction, the auger portion 10 is formed on the outer peripheral surface of the screw shaft 12 in the longitudinal direction And, the air hammer body portion 25 which is coupled to the tip of the auger portion 10 is provided, and communicates with the compressed air movement path 11 to a predetermined space in the inner center of the air hammer body portion 25 Compressed air pressurization portion 21 is formed, with the rotational movement, the air hammer unit 20 and the air hammer to advance the impact through the instantaneous pressurization of the compressed air flowing into the compressed air pressurizing portion 21, the bit excavating the ground Body portion 31 is coupled to the front end of the air hammer 20, the drill bit 32 is formed with a pilot bit 32 to protrude a predetermined length at the center end of the bit body portion 31 and The hollow cylindrical housing body portion 22 is provided, the outside of the housing body portion 22 A plurality of movement guide pieces (23) are radially formed in the longitudinal direction at predetermined intervals on the surface, and the air hammer housing (20) is provided in combination with the hollow housing body portion (22). The auger 10 and the air hammer housing 24 which are formed of a portion 24 and a hollow cylindrical pipe, the front end shoe 41 is coupled to the outer circumferential surface of the front end, and move forward with rotational movement. It consists of a guide casing pipe (40) located in the inner hollow, the inner portion of the bit body 31 and the pilot bit 32 is in communication with the compressed air pressurizing portion 21 is the compressed air pressurizing portion 21 The pilot bit 32 of the underground boring precision boring auger bit 100 in which a compressed air discharge path 33 is formed, through which a predetermined amount of compressed air flows in and is discharged and inserted into the pilot hole 50. After positioning, the induction casing wave The guide casing pipe 40 is positioned in the pipe 60 to operate the excavation bit part 30 to move the guide casing pipe 40 forward while receiving the guide casing pipe 60. Under the guidance of the pilot hole 50, the pilot bit 32 to move forward to excavate the ground to a predetermined depth; can be made.

Precision boring auger bit for underground excavation according to the present invention, by improving the straightness of the excavation work during the drilling of the underground to be able to drill the underground ground precisely to the desired position, thereby improving the construction precision, the construction period of underground excavation drilling It can shorten and reduce the additional cost of re-excavation by preventing the re-excavation by proceeding to the wrong position.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is an exploded perspective view illustrating an exploded view of the underground boring precision auger bit 100 according to the present invention, and FIG. 2 is a cross-sectional view showing a cross section of the underground boring precision boring auger bit 100 according to the present invention. 3 is a front view showing the front of the precision boring auger bit 100 for underground excavation according to the present invention.

In addition, Figure 4a is a construction state diagram showing the step of forming a pilot hole 50 in the boring position as the first step of the underground precision boring construction method using the underground boring precision auger bit 100 according to the present invention, 4B is a construction state diagram illustrating a step of press-fitting the induction casing pipe 60 after the pilot hole 50 is formed. FIG. 4C shows that the pilot bit 32 is placed in the pilot hole 50 and then excavated. 3D is a construction state diagram illustrating that the auger bit 100 according to the present invention is ground excavated while being guided by the induction casing pipe 60, the pilot hole 50, and the guide casing pipe 40.

Underground drilling precision boring auger bit 100 according to the present invention, as shown in Figure 1, the auger portion 10 is formed with a compressed air movement path 11 and screw blades 13, and the oh Located in the tip of the reject 10, the air hammer portion 20 for transmitting the impact by the compressed air to the drilling bit portion 30 located in front, and the ground in front of the air hammer portion 20 It is composed of an excavation bit part 30 to excavate.

The auger portion 10 has a screw shaft 12 formed with a compressed air movement path 11 through which compressed air flowing from the outside moves in the inner center portion in a longitudinal direction, and an outer peripheral surface of the screw shaft 12. As the screw blade 13 for discharging the excavated soil from the excavation bit portion 30 to the outside is formed.

The air hammer portion 20, coupled to the front end of the screw shaft 12 in front of the auger portion 10, as shown in Figures 1 and 2, and the compressed air movement path (11) and The air hammer body portion 25 is provided with a compressed air pressurization portion 21 is formed in communication with the inner center portion to be expanded to the predetermined space than the compressed air movement path 11, the air hammer portion 20 is provided The impact air is advanced through the instantaneous pressurization of the compressed air flowing into the compressed air pressurization unit 21 through the compressed air moving path 11.

The drilling bit portion 30, the bit body portion 31 for excavating the ground is coupled to the front end of the air hammer portion 20, the pilot to project a predetermined length to the center end of the bit body portion 31 Bit 32 is formed. When the air hammer unit 20 is rotated and impacted by the instantaneous pressurization of the compressed air introduced into the compressed air pressurizing unit 21, the air hammer unit 20 is integrally coupled to the front of the air hammer unit 20. Excavation bit portion 30, while rotating with the air hammer 20, the impact advances to rotate the excavation while hitting the ground located in the front, the outside of the bit body portion 31 and the pilot bit 32 Carbide metal pieces are welded to the side to contact the ground to excavate the ground.

Preferably, as shown in FIGS. 1 and 2, the auger bit 100 is provided by providing a plurality of extension bits 34 on one side of which is rotatably hinged to an upper surface of the bit body part 31. When the ground is rotated and excavated by the centrifugal force, the plurality of extension bits 34 extend outwardly of the bit body portion 31 around the hinge coupling and extend and drill beyond the range in which the bit body portion 31 is excavated. To allow the guide casing pipe 40 to be press-fitted into the extended excavation site.

Also preferably. 1 and 3, by forming a plurality of grooves in the longitudinal direction of the outer circumferential surface of the bit body portion, the compressed air discharged through the compressed air discharge path 33 together with the dust generated during the excavation process, etc. It is possible to escape to the space between the plurality of movement guide pieces 23 of the air hammer housing part 24.

When the excavation bit portion 30 rotates and excavates while hitting the ground of the front surface, the pilot bit is projected to a small diameter smaller than the front outer periphery of the bit body portion 31 at the center tip of the bit body portion 31. And the pilot bit 32 is excavated while hitting the ground to receive centrifugal force smaller than the centrifugal force due to the rotation of the bit body portion 31 to form an initial drilling guide groove and at the same time The pilot bit 32 is inserted into the guide groove while striking forward and excavated, and the pilot bit 32 is excavated and advanced continuously while forming the perforated guide groove in the ground. Subsequently, the bit body 31 is connected to the pilot bit ( By excavating the outer ground of the drill guide groove formed in 32), it is possible to improve the straightness of the underground ground excavation.

Preferably, a small diameter pilot hole 50 is first constructed at a position to be drilled in the underground ground, and the pilot bit 32 is positioned in the pilot hole 50, and then, as described above, the underground ground By excavating, by allowing the pilot bit 32 to move forward excavation under the guidance of the pilot hole 50, it is possible to further improve the straightness of the underground ground excavation.

In addition, preferably, as shown in Figures 1 and 2, to provide a hollow cylindrical housing body portion 22, the outer peripheral surface of the housing body portion 22 at a predetermined interval with a plurality of longitudinal direction The moving guide piece 23 is formed radially, and the inside of the hollow housing body portion 22 is provided with an air hammer housing portion to which the air hammer portion 20 is coupled, and is also formed of a hollow cylindrical pipe. To the outer circumferential surface of the tip portion, the tip shoe 41 is coupled to facilitate the underground press-in, and the guide casing pipe in which the auger portion 10 and the hammer housing portion move forward with the rotational movement are located in the inner hollow ( 40, the outer surface of the plurality of the movement guide piece 23 of the air hammer housing part is sliding on the inner surface of the guide casing pipe 40, the inner side of the guide casing pipe 40 An air hammer section 20 it is possible to improve the straightness of the ground during excavation of the excavation bit part 30 is provided integrally on the front side of and moves forward, the air hammer unit 20 receives.

In addition, the underground precision boring construction method using the underground boring precision auger bit 100 according to the present invention, as shown in Figure 4a to 4d, first, by determining the position to be bored in the ground, The small diameter pilot hole 50 is drilled in the boring position.

After drilling the pilot hole 50, the pilot hole 50 is positioned at the center of the hollow induction casing pipe 60, and the induction casing pipe 60 is provided so that the induction casing pipe 60 is located in the soil. It is press-fitted into the ground by the predetermined length of (60).

After the induction casing pipe 60 is press-fitted to a predetermined depth in the ground, the excavation is carried out using the above-mentioned underground boring precision boring auger 100 according to the present invention. After positioning the pilot bit 32 of the underground boring precision auger bit 100 in the pilot hole 50, the auger bit 100 is operated to perform excavation.

At this time, the pilot bit 32 is guided by the pilot hole 50, and the bit body 31 expands and drills the excavated part of the pilot bit 32. As such, the auger bit 100 is first excavated under the guidance of the induction casing pipe 60, and the pilot bit 32 is excavated under the guidance of the pilot hole 50. , The air hammer unit 20 to move forward hitting is excavated when the guide casing pipe 40 is guided to improve the straightness of the underground excavation, thereby allowing precise boring at the desired underground position. .

Although some embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof.

Accordingly, the above-described embodiments are to be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are included within the scope of the present invention.

1 is an exploded perspective view showing an exploded view of the underground boring precision auger bit 100 according to the present invention;

2 is a cross-sectional view showing a cross-section of the underground boring precision boring auger bit 100 according to the present invention;

Figure 3 is a front view showing the front of the drilling boring auger 100 for underground excavation according to the present invention;

Figure 4a is a first step of the underground precision boring construction method using the underground drilling precision boring auger bit 100 according to the present invention, the construction state showing the step of forming a pilot hole 50 in the boring position;

4B is a construction state diagram illustrating a step of pressing the induction casing pipe 60 after forming the pilot hole 50;

4C is a construction state diagram showing that drilling is performed after positioning the pilot bit 32 in the pilot hole 50; And

FIG. 4D is a construction state diagram illustrating that the auger bit 100 according to the present invention is ground excavated while being guided by the induction casing pipe 60, the pilot hole 50, and the guide casing pipe 40.

Explanation of symbols on the main parts of the drawings

10: rejection 11: compressed air movement path

12: screw shaft 13: screw blade

20: air hammer part 21: compressed air pressurizing part

22: housing body portion 23: movement guide piece

24: air hammer housing portion 25: air hammer body portion

30: drilling bit portion 31: bit body portion

32: pilot bit 33: compressed air discharge

34 extension bits

40: guide casing pipe 41: tip shoe

50: pilot hole 60: induction casing pipe

100: precision boring auger bit for underground excavation

Claims (3)

The inner center portion is provided with a screw shaft 12, the compressed air movement path 11 is formed in the longitudinal direction, the auger portion 10 is formed on the outer peripheral surface of the screw shaft 12 in the longitudinal direction ; An air hammer body portion 25 coupled to the distal end of the auger portion 10 is provided, and the compressed air is compressed into a predetermined space at an inner central portion of the air hammer body portion 25 so as to communicate with the compressed air movement path 11. The pressurizing unit 21 is formed, and with the rotational movement, the air hammer unit 20 to shock forward through the instantaneous pressurization of the compressed air flowing into the compressed air pressurizing unit 21; And A bit body 31 for excavating the ground is coupled to the tip of the air hammer 20, the drilling bit 32 is formed in the center tip of the bit body 31 to protrude to a predetermined length Part 30; underground boring precision boring auger bit 100, characterized in that consisting of. The method of claim 1, The hollow cylindrical housing body portion 22 is provided, the outer circumferential surface of the housing body portion 22 is formed with a plurality of moving guide pieces radially in the longitudinal direction at a predetermined interval, the hollow housing body An air hammer housing part 24 provided with the air hammer part 20 in the interior of the part 22; And It is formed of a hollow cylindrical pipe, the tip shoe 41 is coupled to the outer circumferential surface of the tip portion, the auger portion 10 and the air hammer housing portion 24 that moves forward with the rotational movement is located in the inner hollow guide Casing pipe 40; is configured to further include, Compressed air is communicated with the compressed air pressurizing portion 21 to the inner center portion of the bit body 31 and the pilot bit 32 so that a predetermined amount of compressed air flows in and is discharged from the compressed air pressurizing portion 21. Underground drilling precision boring auger bit 100, characterized in that the discharge path 33 is formed. In the underground precision boring construction method for drilling the ground of the ground of the desired position, Forming a pilot hole 50 having a small diameter along a position to be bored in the ground; Placing the pilot hole (50) at the center of the hollow induction casing pipe (60), and then pressing the induction casing pipe (60) to a predetermined depth in the ground; And The inner center portion is provided with a screw shaft 12, the compressed air movement path 11 is formed in the longitudinal direction, the auger portion 10 is formed on the outer peripheral surface of the screw shaft 12 in the longitudinal direction And, the air hammer body portion 25 which is coupled to the front end of the auger portion 10 is provided, in communication with the compressed air movement path 11 to the inner center of the air hammer body portion 25 to a predetermined space Compressed air pressurization portion 21 is formed, with the rotational movement, the air hammer unit 20 for shock advance through the instantaneous pressurization of the compressed air flowing into the compressed air pressurizing portion 21, A bit body 31 for excavating the ground is coupled to the tip of the air hammer 20, the drilling bit 32 is formed in the center tip of the bit body 31 to protrude to a predetermined length Section 30, The hollow cylindrical housing body portion 22 is provided, the outer circumferential surface of the housing body portion 22 is formed with a plurality of moving guide pieces in the radial direction in the longitudinal direction at a predetermined interval radially, the hollow housing body An air hammer housing part 24 provided with the air hammer part 20 coupled to the inside of the part 22, It is formed of a hollow cylindrical pipe, the tip shoe 41 is coupled to the outer circumferential surface of the tip portion, the auger portion 10 and the air hammer housing portion 24 that moves forward with the rotational movement is located in the inner hollow guide Casing pipe 40, Compressed air is communicated with the compressed air pressurizing portion 21 to the inner center portion of the bit body 31 and the pilot bit 32 so that a predetermined amount of compressed air flows in and is discharged from the compressed air pressurizing portion 21. Of the underground boring precision boring auger bit 100, the discharge path 33 is formed, After the pilot bit 32 is inserted into the pilot hole 50 and positioned, the guide casing pipe 40 is positioned in the induction casing pipe 60 to operate the excavation bit part 30. The guide casing pipe 40 is moved forward while being guided by the induction casing pipe 60, the pilot bit 32 is moved forward while being guided by the pilot hole 50, and the ground is excavated to a predetermined depth. Underground precision boring construction method characterized in that it comprises a; exiting.

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