KR100864371B1 - Digging equipment and method for vertical hole and inclined hole - Google Patents

Abstract

An excavation device and an excavation method for a vertical-horizontal shaft and an inclined shaft are provided to perforate and expand a ventilation shaft and a working hole in a mine using a R.B.M method(Raised Boring Machine Method), and not to cause inconvenience to construction work by disposing of muck effectively using high pressure water and compressed air. An excavation device for a vertical-horizontal shaft and an inclined shaft comprises a pair of base plates(10) installed on the top of a concrete foundation at regular intervals to reinforce the ground, a main frame(20) installed on the base plate and composed of a central work table(21), fastening units(22) formed on the right and left sides of the work table and a setting unit(23) formed on the rear of the fastening unit, a column guide(30) connected to the top of the setting unit of the main frame to support the device strongly, a cross head(40) fitted with the column guide and provided with a bearing to reduce load occurring in a gear box, a gear box(50) installed to a mounting hole(41) of the cross head to reduce RPM provided from a drive motor, a drive head(60) installed to the lower part of the mounting hole of the cross head and connected with the lower part of the gear box to receive rotary force generated from a drive motor through the gear box and to transfer the received rotary force to a drill pipe and a perforation bit or a reamer connected to the bottom of a drill pipe, a cylinder(70) coupled with the fastening unit of the main frame via an insertion hole(43) of the cross head, a drive motor(80) installed to the upper part of the gear box to generate rotary force and to transfer to a drill pipe through the gear box and the drive head, a head frame(90) installed to the top of the column guide to prevent the breakdown of the device by distortion, and a drill pipe installed to the drive head and rotated by rotary force of the drive motor through a pipe hole(21a) of the work table and coupled with a perforation bit or a reamer.

Description

Digging equipment and method for vertical hole and inclined hole}

The present invention relates to a vertical horizontal shaft and a four-cavity drilling device and an excavation method, in particular, not only perforating the ventilation shaft and work tools installed in the mine shaft, but also can expand and vertically carry the buoyancy to the ground And a cavernous drilling rig and an excavation method.

For a long time, mines have been excavated with transverse shafts for vertical holes for entry and exit shafts and for ventilation purposes.

However, in order to construct these types of vertical spheres, various excavation equipments should be applied, but in Korea, they are designed and constructed in accordance with the old equipment rather than newly developed mechanized equipment. It implies

Conventionally used to excavate the vertical and sand pit is largely divided into a top down drilling method and a bottom up drilling method.

Among these, bottom-up excavation methods include D & B (Drill & Blasting Method), R.C (Raise Climber Method), and R.B.M (Raise Boring Machine Method).

D & B method (Drill & Blasting Method) is a conventional blasting method by gunpowder, and proceeds in the order of drilling, blasting, ventilation, bubbling treatment, reinforcement. This method requires a temporary facility, such as a winch (Winch) is expensive and the blast and vibration noise is high, the risk of safety accidents, high labor costs due to manpower excavation, and there was a problem of falling precision in construction.

The Rise Climber Method (Raise Climber Method) drills the pilot hole using a rock drill and installs rails for the movement of the working scaffold in the order of drilling, charging, blasting, ventilation, pumice treatment. This method is difficult to apply in the soft ground condition, the blast and vibration noise is high, so the risk of safety accident is difficult, and it is difficult to cope with the fall or collapse, and the uncertainty of construction is required in places requiring precision such as pumping power plant. Became.

RBM method (Raise Boring Machine Method) is to install the machine room on the upper part of the vertical shaft or sand shaft to be excavated, the reaming room is formed on the lower part, then operate the fabric mill in the upper machine room and install the drill pipe equipped with drilling bits. Excavation of the induction hole while connecting the replacement, by lifting the upper portion of the reamer through the excavated induction hole to expand the vertical or dead gang. This method has been widely used recently because it has the advantages of fast excavation speed, safety accidents can be eliminated, ventilation is not necessary, and construction is precise.However, in Korea, it is a suitable machine to perform such a method. There is a problem that is not filed and depends almost entirely on foreign countries.

In addition, in order to expand, the induction hole must be drilled first, and the conventional technique uses only low pressure water (7 bar at 550 liters / minute) or compressed air (7 bar at 22.7 m3 / min) to form a joint or joint layer. In the excavation of the jamming phenomenon occurs during the induction hole drilling process there is a problem that can not cope properly to replace.

The present invention has been made to solve the above-mentioned problems of the prior art, a vertical horizontal shaft that can be expanded as well as perforating the ventilation shaft and work tools installed in the mine tunnel using RBM (Raise Boring Machine Method) And the purpose of providing a dead mine drilling device.

In addition, low pressure water or compressed air should be used for high pressure water (4 to 50 bar at 2500 liters / min) or compressed air (4 to 50 bar at 50㎥ / min) or in order to cope with jamming generated during induction hole drilling. High pressure water and compressed air are mixed symmetrically with high pressure water and compressed air at a ratio of 20 ~ 80% by volume and 80 ~ 20% by volume of compressed air with respect to 100% by volume. Its purpose is to provide a precise vertical horizontal shaft and quadrangular drilling rig.

Vertical horizontal gang and quadrangular excavation device according to the present invention for solving the above problems is provided with two base plates installed on the ground at regular intervals; A work table is formed in the center of the pipe hole and a fastening piece is formed at the rear of the bottom surface and is pin-connected to the base plate. A main frame formed of a seating portion formed in the main frame; A column guide having a lower end bolted to a seating portion of the main frame; A cross head having a mounting hole formed at a center thereof, guide holes being formed at both rear sides of the mounting hole, such that the column guides are fitted, and insertion holes formed between the guide holes and at both sides of the mounting hole; A drive head installed below the mounting hole of the crosshead; A cylinder having a lower end bolted to a fastening portion of the main frame through the insertion hole of the crosshead; A gear box having a lower portion inserted into the mounting hole of the crosshead; A drive motor installed at an upper side of the gear box; A head frame installed at an upper end of the column guide; The upper end is connected to the drive head and the drill pipe to rotate through the pipe hole of the worktable by the rotational force of the drive motor and to drill the ground by replacing the perforated bit or reamer at the lower end;

Here, a turnbuckle is installed between the base plate and the fastening portion of the work table.

In addition, a discharge hole is formed in the drilling bit, a rotary joint is installed at an upper end of the drive motor, and an external pressure for receiving high pressure water or compressed air or a mixture of high pressure water and compressed air from the outside on the upper side of the rotary joint. A hose is connected, and an internal injection hose for delivering high pressure water or compressed air injected into the external pressure hose or a mixture of high pressure water and compressed air to the punch bit is connected to the lower side of the rotary joint.

In addition, the drill pipe is further provided with a stabilizer (Stabilizer) to reduce the excavation vibration at the bottom, the guide hole eccentricity prevention means is installed at the bottom of the stabilizer 130, the drill bit is installed at the bottom of the guide hole eccentricity prevention means do.

In order to solve the above problems, the vertical cavities and four-cavity excavation method according to the present invention connects the drill bit to the end of the drill pipe and advances the drill bit to drill the induction hole, and induces the induction hole, while drilling the induction hole with an external pressure hose and High pressure water (4-50 bar at 2500 liters / min) or compressed air (4-50 bar at 50㎥ / min) or a mixture of high-pressure water and compressed air to the drilling bit through the internal injection hose High pressure water, compressed air or high pressure water and compressed air injected into the induction hole through the discharge hole of the drill bit by injecting high pressure water and compressed air symmetrically at a ratio of 20 to 80% by volume and 80 to 20% by volume of compressed air. A high-pressure water injection step of conveying the buoyancy generated when the mixture of air is excavated to the ground, and a reamer exchange step of replacing and mounting a drill bit installed at the bottom of the drill pipe in the reaming room with a reamer; And expanding the induction hole by advancing the reamer in a direction opposite to the advancing direction of the drilling bit.

The vertical horizontal shaft and dead shaft drilling apparatus according to the present invention configured as described above has the advantage that the base plate and the work table are connected by a turnbuckle to adjust the angle of the base plate and the work table to excavate the vertical shaft and the dead shaft.

In addition, by using high pressure water (4-50 bar at 2500 liters / min) or compressed air (4-50 bar at 50㎥ / min) or a mixture of high pressure water and compressed air, it is possible to easily remove the burrs generated while drilling the induction hole. It is advantageous in that the bubbling treatment can be easily performed to prevent jamming phenomenon.

In addition, by using the guide hole eccentric prevention means in the RBM method can improve the verticality of the guide hole when drilling to the bottom of the ground, thereby reducing the consumption of the cutter by reducing the load on the reamer during reaming There is an advantage in that the reamer can be changed quickly by not having excessive force applied to it, extending the life and finding the guide hole in the reaming room easily.

Hereinafter, with reference to the accompanying drawings an embodiment of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention will be described in detail.

1 is a front view of a vertical horizontal gang and four angle drilling rig according to the present invention, Figure 2 is a side view of a vertical horizontal gang and four angle drilling rig according to the present invention, Figure 3 is a vertical horizontal gang and four angle drilling rig according to the present invention Top view of the.

And, Figure 4 is an exploded perspective view of the vertical horizontal shaft and dead hole drilling apparatus according to the present invention.

In addition, Figure 5a is a view showing a drill bit of the drilling hole of the vertical horizontal shaft and the quadrangular drilling rig according to the present invention, Figure 5b is a reamer in the drill pipe of the vertical horizontal shaft and the quadrangular drilling rig according to the present invention Figure 5c is a view showing an attached state, Figure 5c is a view showing a state in which the reamer enlarged excavation of the guide hole reamer of the vertical horizontal shaft and the quadrangular drilling apparatus according to the present invention.

Figure 6 is a view showing the stabilizer and guide hole eccentricity prevention means of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention, Figure 7 is a view of the guide hole eccentricity prevention means of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention It is a cross section shown.

Vertical horizontal shaft and quadrangular drilling rig according to the present invention is the base plate 10, the main frame 20 is installed on the base plate 10, the column guide 30 is connected to the main frame 20 and , A crosshead 40 into which the column guide 30 is fitted, a gearbox 50 installed in the crosshead 40, a drive head 60 installed in the crosshead 40, and the A cylinder 70 inserted into the crosshead 40, a drive motor 80 installed above the gear box 50, a head frame 90 installed on an upper end of the column guide 30, It is configured to include a drill pipe 100 is installed in the drive head (60).

The base plate 10 is a pair of being installed at a predetermined interval on the ground or the upper surface of the concrete foundation for reinforcing the ground, the ground seat portion 11 in the form of a flat panel seated on the ground and the ground seat The coupling part 12 is formed to protrude at a predetermined interval from the upper surface of the portion (11).

The ground seat portion 11 is formed with a plurality of bolt holes (11a) for fastening anchor bolts, the coupling portion 12 is connected to the coupling portion 22 of the main frame 20 to be described later in the front A fastening hole 12a is formed therein, and a pinhole 12b for connecting with the main frame 20 is formed at the rear of the coupling part 12. On the other hand, the coupling portion 12 is connected to the base plate 10 and the main frame 20 by a turnbuckle (TB) through the fastening portion 22 and the fastening hole 12a of the main frame 20. Table 21 is configured to be adjusted to some degree.

The main frame 20 is composed of a work table 21 in the center, a fastening portion 22 formed on the left and right sides of the work table 21 and a seating portion 23 formed at the rear of the fastening portion 22. do.

The work table 21 has a pipe hole 21a formed at the center thereof, the drill pipe 100 penetrates the pipe hole 21a, and a fastening piece 21b is formed at the rear of the bottom surface thereof so that the fastening piece 21b is formed. ) Is disposed between the coupling portion 12 of the base plate 10 and pinned to the pinhole 12b formed in the coupling portion 12 of the base plate 10.

The fastening part 22 is formed to protrude two by two perpendicular to the left and right sides of the work table 21, respectively, the two fastening parts 22 formed in this way are fitted into the coupling part 12 of the base plate 10, respectively. do.

The seating part 23 is formed at the rear of the fastening part 22 and the shape is formed in a cylindrical shape.

The column guide 30 serves to support the device firmly when the excavating device according to the present invention vibrates in the up and down direction, and has a lower end seating part 23 of the main frame 20. Is coupled to the top.

The crosshead 40 allows a bearing (not shown) to be installed therein to further reduce the load generated from the gearbox 50. The crosshead 40 has a mounting hole 41 is formed in the center, the guide hole 42 is formed on both sides of the rear of the mounting hole 41, between the guide hole 42 and the mounting hole 41 Insertion holes 43 are formed at both front sides of the.

The lower portion of the gearbox 50 is inserted into the mounting hole 41, the column guide 30 is fitted into the guide hole 42, and the cylinder 70 is inserted into the insertion hole 43. Is fitted.

The gearbox 50 is installed in the mounting hole 41 of the crosshead 40 as described above, reducing the number of revolutions (RPM) provided from the drive motor 80 from 850 RPM to 0 ~ 70 RPM more Allow load to occur.

The drive head 60 is installed below the mounting hole 41 of the crosshead 40 and is connected to the lower part of the gearbox 50 so that the drill pipe 100 is connected to the lower side. Therefore, the drive head 60 receives the rotational force generated from the drive motor 80 through the gear box 50, and transmits the received rotational force to the drill pipe 100 to eventually the lower end of the drill pipe 100 Transfer to the punch bit 110 or reamer 120 connected to.

The cylinder 70 penetrates through the insertion hole 43 of the crosshead 40, and a lower end thereof is bolted to the fastening part 22 of the main frame 20. This gives a driving force when the excavation device of the present invention excavates the ground, contracted when connecting or disconnecting the drill pipe 100 to the drive head 60 to provide a space for the connection and disconnection of the drill pipe 100 give.

The drive motor 80 is installed on the upper side of the gear box 50 and generates a rotational force, the rotational force is transmitted to the drill pipe 100 through the gearbox 50 and the drive head (60). A junction box 81 is installed at one side of the drive motor 80 to supply DC power to the drive motor 80.

In addition, a rotary joint 82 is formed at an upper side of the drive motor 80. The rotary joint 82 has an external pressure hose 83 that receives high pressure water or compressed air or a mixture of high pressure water and compressed air from the outside. ) Is connected.

The high pressure water or the compressed air or the mixture of the high pressure water and the compressed air delivered by the external pressure hose 83 is connected to the lower side of the rotary joint 82 and the drive motor 80 and the gearbox 50 and the crosshead Drilling bit 110 by an internal injection hose 84 passing through the mounting hole 41 of the 40, the drive head 60 and the pipe hole 21a of the work table 21 to the drill pipe 100 Delivered to.

The head frame 90 is bolted to the upper end of the column guide 30 to prevent the drilling device of the present invention from being damaged by torsion.

The drill pipe 100 has an upper end connected to the drive head 60 and also rotates through the pipe hole 21a of the work table 21 by the rotational force of the drive motor 80 and has a drill bit at the lower end. 110 or reamer 120 is exchange mounted.

The drilling bit 110 is a device for drilling the guide hole in order to excavate the vertical horizontal shaft and the dead shaft. The punch bit 110 is formed with a discharge hole (110a) in the vertical direction in the center and connected to the inner injection hose 84, the high-pressure water injected from the external pressure hose (83 ~ 4 ~ 2500 liters / minute) 50 bar) or compressed air (4-50 bar at 50 m 3 / min) or a mixture of high pressure water and compressed air is delivered to the discharge hole 110a of the drill bit 110.

Accordingly, the high pressure water or the compressed air or the mixed liquid of the high pressure water and the compressed air introduced into the drill pipe 100 through the external pressure hose 83 and the inner injection hose 84 as shown in FIGS. It is discharged to the drilling surface through the discharge hole (110a) of the drill bit 110, if such discharge is continued, the high-pressure water or compressed air or a mixture of high-pressure water and compressed air is gradually level between the drill bit 110 and the drilling surface As it rises, it carries the force and releases it onto the ground.

The reamer 120 is a device that expands by replacing with the drill bit 110 in the lower reaming room (reaming room) of the lower side of the induction hole drilled by the drill bit (110).

On the other hand, the drill pipe 100 is further provided with a stabilizer (Stabilizer, 130) to reduce the excavation vibration at the lower end, the drill bit 110 or reamer 120 is exchanged mounted on the lower end of the stabilizer 130 .

In addition, the guide hole eccentric prevention means 140 is further installed between the stabilizer 130 and the drilling bit 110.

Here, the induction hole eccentric prevention means 140 is installed in the upper tank 141 and the oil tank 141a and the turbine 141b, and the lower side of the upper tank 141 and adjust the stabilizer 142a And a lower tank 142 which is provided with an adjusting rib 142b and is connected to the drilling bit 110 at the bottom thereof.

The induction hole eccentric prevention means 140 is a device for drilling in a straight line within 0.1% to the point where the induction hole targets when excavating the induction hole to the reaming room in the basement. That is, it serves to improve the verticality of the guide hole.

In addition, the guide hole eccentric prevention means 140 is composed of two independent tanks, among which the upper tank 141 has the same rotational speed by the drive of the drive motor 80 motor, oil tank 141a and turbine 141b ) Is built. The lower tank 142 is a part for substantially adjusting the direction and when the deviation from the predetermined inclination value initially set in the inclinometer (not shown) built in the turbine 141b of the upper tank 141, the power from the turbine 141b. Its power is generated by operating the hydraulic pressure in the upper tank 141 to expand the adjustment rib 142b of the deviation portion of the three adjustment ribs (142b) provided in the lower tank 142 to vertical within 0.5% It helps to maintain the degree.

On the other hand, the vertical cavities and four-cavity excavation method according to the present invention is connected to the drilling bit 110 to the end of the drill pipe 100 and the induction hole drilling step of drilling the induction hole by advancing the drilling bit 110, while drilling the induction hole High pressure water injected into the guide hole through the discharge hole 110a of the drill bit 110 by injecting the high pressure water to the drill bit 110 through the external pressure hose 83 and the inner injection hose 84 is generated at the time of excavation of the guide hole. A high pressure water injection step for transporting the deformed force to the ground, a reamer exchange step of replacing and mounting the drill bit 110 installed at the bottom of the drill pipe 100 in the reaming room with the reamer 120, and the reamer 120 It consists of an expansion step of expanding the guide hole by proceeding in the opposite direction to the traveling direction of the drilling bit (110).

Here, instead of the high pressure water when the induction hole excavation, compressed air or a mixture of the high pressure water and the compressed air may be supplied to the drilling bit 110. At this time, instead of the high pressure water (4-50 bar at 2500 liters / min), compressed air (4-50 bar at 50㎥ / min) or a mixture of the high pressure water and the compressed air is 20 to 80% by volume of 100% by volume. In this case, the high pressure water and the compressed air are symmetrically used at a ratio of 80 to 20% by volume of compressed air.

1 is a front view of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention.

Figure 2 is a side view of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention.

Figure 3 is a plan view of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention.

Figure 4 is an exploded perspective view of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention.

Figure 5a is a view showing a drilling bit of the drilling hole of the vertical horizontal shaft and the dead hole drilling apparatus according to the present invention.

Figure 5b is a view showing a state in which the reamer is attached to the drill pipe of the vertical horizontal gang and quadrangular drilling rig according to the present invention.

Figure 5c is a reamer of the vertical horizontal shaft and the quadrangular excavation apparatus according to the present invention showing an enlarged excavation of the guide hole.

Figure 6 is a view showing the state of the stabilizer and guide hole eccentricity prevention means of the vertical horizontal shaft and dead-cavity drilling apparatus according to the present invention.

Figure 7 is a cross-sectional view showing a state of the guide hole eccentric prevention means of the vertical horizontal gang and quadrangular excavation device according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: base plate 11: ground seat

12: coupling part 20: mainframe

21: Worktable 22: Fastening Part

23: seating portion 30: column guide

40: crosshead 41: mounting hole

42: guide hole 43: insertion hole

50: gearbox 60: drive head

70: cylinder 80: drive motor

81: Junction Box 82: Rotary Joint

83: external pressure hose 84: internal injection hose

90: head frame 100: drill pipe

110: punch bit 120: reamer

130: stabilizer 140: guide hole eccentric prevention means

Claims (12)

Two base plates 10 installed on the ground at regular intervals; A pipe hole 21a is formed at the center, and a fastening piece 21b is formed at the rear of the bottom surface to protrude perpendicularly to the left and right sides of the work table 21 and the left and right sides of the work table 21, which are pin-coupled with the base plate 10. A fastening part 22 formed to be connected to the base plate 10, and a seating part 23 formed at a rear of the fastening part 22, and formed of the base plate 10 and the work table 21. A turn frame (TB) between the fastening portions (22) and a main frame (20) for adjusting the angle formed between the base plate (10) and the work table (21); A column guide 30 having a lower end coupled to the seating part 23 of the main frame 20; Mounting holes 41 are formed in the center, guide holes 42 are formed at both rear sides of the mounting holes 41 so that the column guides 30 are inserted between the guide holes 42 and the mounting holes ( A crosshead 40 having insertion holes 43 formed at both front sides of the front surface 41; A gear box 50 installed at a lower portion of the mounting head 41 of the crosshead 40; A drive head 60 installed below the mounting hole 41 of the crosshead 40 and connected to a lower part of the gear box 50; A cylinder 70 penetrating the insertion hole 43 of the crosshead 40 and having a lower end bolted to the fastening part 22 of the main frame 20; A drive motor 80 installed on the gear box 50 to provide rotational force to the gear box 50; A head frame 90 installed at an upper end of the column guide 30; The upper end is connected to the drive head 60 and also rotates by the rotational force of the drive motor 80 through the pipe hole 21a of the work table 21, and the perforated bit 110 or the reamer 120 at the lower end. The drill pipe 100 for excavating the ground is exchanged and mounted; Vertical horizontal gang and quadrangular excavation apparatus comprising a. delete The method according to claim 1, The punch bit 110 is formed with a discharge hole (110a), A rotary joint 82 is installed at an upper end of the drive motor 80, and an external pressure hose 83 receiving high pressure water from the outside is connected to an upper side of the rotary joint 82, and the external pressure hose 83 Vertical horizontal gang and quadrangular excavation device, characterized in that the inner injection hose (84) for transferring the high-pressure water injected into the drill bit (110) is connected to the lower side of the rotary joint (82). The method according to claim 1, The punch bit 110 is formed with a discharge hole (110a), A rotary joint 82 is installed at an upper end of the drive motor 80, and an external pressure hose 83 that receives compressed air from the outside is connected to an upper side of the rotary joint 82, and the external pressure hose 83 Vertical horizontal shaft and quadrangular excavation device, characterized in that the inner injection hose (84) for transferring the compressed air injected into the drill bit (110) is connected to the lower side of the rotary joint (82). The method according to claim 1, The punch bit 110 is formed with a discharge hole (110a), A rotary joint 82 is installed at an upper end of the drive motor 80, and an external pressure hose 83 is connected to an upper side of the rotary joint 82 to receive a mixture of high pressure water and compressed air from the outside. Vertical horizontal shaft, characterized in that the inner injection hose 84 for delivering a mixture of high-pressure water and compressed air injected into the external pressure hose 83 to the drilling bit 110 is connected to the lower side of the rotary joint 82 and Tunnel Excavator. The method according to claim 1, The drill pipe 100 is further provided with a stabilizer (Stabilizer, 130) to reduce the excavation vibration at the lower end, the drill bit 110 or the reamer 120 is mounted on the lower end of the stabilizer 130 is exchanged Vertical gang and trussing excavators made. The method according to claim 6, Vertical stabilizer and quadrangular drilling device, characterized in that the guide hole eccentric prevention means 140 is further installed between the stabilizer 130 and the drill bit (110). The method according to claim 7, The induction hole eccentric prevention means 140 includes an upper tank 141 provided with an oil tank 141a and a turbine 141b therein; A lower tank 142 installed at the lower side of the upper tank 141 and provided with an adjusting stabilizer 142a and an adjusting rib 142b, and having a drilling bit 110 connected to a lower end thereof. Vertical horizontal pit and dead end rig delete delete An induction hole drilling step of connecting the drilling bit 110 to the end of the drill pipe 100 and drilling the induction hole by advancing the drilling bit 110; Injecting the induction hole through the discharge hole 110a of the drilling bit 110 by injecting a mixture of high pressure water and compressed air to the drilling bit 110 through the external pressure hose 83 and the inner injection hose 84 while drilling the induction hole. The mixed liquid injected into it carries the pressure generated during the excavation of the guide hole to the ground, but the high pressure water (4-50 bar at 2500 liters / minute) or compressed air (4-50 bar at 50㎥ / min) or high pressure water and compressed air Mixing the mixed solution of the high pressure water and the compressed air at a ratio of 20 to 80% by volume of high pressure water and 80 to 20% by volume of compressed air to a total volume of 100% by volume; A reamer exchange step of exchanging and mounting the drill bit 110 installed at the bottom of the drill pipe 100 in the reaming room with the reamer 120; Vertical reinforcing shaft and four-cavity excavation method comprising a; reinforcing step to expand the guide hole by advancing the reamer 120 in the direction opposite to the traveling direction of the drilling bit (110). delete

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