KR101184534B1 - Ground reinforcing construction method and the auger device used for it - Google Patents

Abstract

The present invention relates to a ground reinforcement method and an auger device used therefor, which can effectively reinforce the ground without constructing a separate casing, and forms an excavation hole in the ground using an auger, and grouts the inside of the auger. Supplying cement and wall reinforcement, filling the grouting cement into the excavation hole through the auger's lower grout discharge hole while reversely raising the auger inside the excavation hole, and excavating through the wall reinforcement discharge holes formed on the sides of the auger. The wall reinforcement is attached to the inner wall surface of the ball, and when the grouting cement is filled in the inside of the excavation hole, the grouting cement is stopped and the auger is rotated back up to the upper end of the excavation hole while the auger is reversed. While attaching the reinforcing material, the reinforcing pile is embedded in the excavation hole, And finishing the ground reinforcement by beating the upper end of the reinforcement pile with a hammer.
According to the present invention, by not constructing the casing in the ground excavation hole, the process of ground reinforcement work can be greatly shortened, the work productivity can be improved and the air shortened, and the equipment can be easily managed on the job site, and accordingly An excellent effect can be obtained that can greatly reduce the construction cost.

Description

GROUND REINFORCING CONSTRUCTION METHOD AND THE AUGER DEVICE USED FOR IT}

The present invention relates to a construction method for excavating the ground and reinforcing by using a pile during the foundation construction of the building, more specifically drilling the ground using an auger, grouting cement through an auger made of a double pipe inside the excavation hole Bentonite and fasteners are injected with high pressure air toward the inner wall surface of the excavation hole to reinforce the inner wall of the excavation hole, and then the reinforcement pile is inserted into the excavation hole to reinforce the ground to separate the inside of the excavation hole. It can effectively reinforce the ground without constructing a casing, which can greatly shorten the process of reinforcing work, miniaturize the excavation equipment, improve the work productivity, shorten the air and reduce the construction cost. The present invention relates to a ground reinforcement method and an auger device used therein.

In general, when constructing high-rise buildings or reinforced concrete structures, in order to solidify the foundation of the soft ground, foundation construction is carried out by embedding PHC piles or H-beams in the ground.

However, in the conventional method used for such a foundation construction, since the PHC pile or the H-beam should be hit by using a heavy chain hammer, an excavation construction method for improving the vibration and noise has been proposed.

The auger drilling apparatus used in such a conventional excavation construction method has an auger rotated and inserted into the ground, and has a top auger driving unit (Top Auger) for rotating the auger.

A cylindrical casing is disposed coaxially to the outside of the auger, and the upper auger driving unit includes a bottom auger that includes a rotating motor (not shown) for rotating the outer cylindrical casing. And are provided separately.

In the conventional auger drilling apparatus, when a screw-shaped auger is rotated with an upper auger drive to excavate the ground, the lower auger drive rotates a cylindrical casing in a direction opposite to the rotation of the upper auger drive to excavate with an auger around the auger. Into the ground.

The conventional ground reinforcement method 1 for reinforcing the foundation ground of a building using such an auger drilling apparatus is shown step by step over FIGS. 1A to 1F.

Conventional ground reinforcement method (1) first, as shown in Figure 1a, by rotating the screw-shaped auger 10 to the upper auger drive unit (10a) to excavate the ground, disposed around the auger 10 The cylindrical casing 20 is rotated through the lower auger drive unit 20a in the opposite direction and inserted into the excavation hole 30 of the ground G together with the auger 10.

As shown in FIG. 1B, when both the auger 10 and the casing 20 reach the support layer 40 such as the rock layer in the ground G, and the excavation hole 30 is completed, the casing 20 is Leaving it in place, as shown in Figure 1c, while rotating the auger 10 in the opposite direction through the upper auger drive (10a) is pulled out to the upper side, in this way the upper auger drive (10a) to the upper side While pulling out, the inside of the casing 20 is filled with a certain amount of grouting cement 50.

The grouting cement 50 is injected into the excavation hole 30 through the auger 10 which excavates the ground, and thus the conventional auger which injects the grouting cement 50 after excavating the ground G. (10) consisted of a cylindrical cross-sectional structure.

That is, the conventional auger 10, as shown in Figure 2, the drilling bit 14 is mounted on the lower end of the body 12 to excavate the ground (G) when the auger 10 rotates.

And the body 12 of the auger 10 is made of a cylindrical pipe, the interior thereof forms a grout flow passage 12a, the grout discharge hole (14a) is formed in the center of the bit (14).

In addition, a screw blade 16 is attached around the body 12 of the auger 10, and when the auger 10 rotates, the bit 14 excavated by the bit 14 is pushed to the upper side to be discharged to the outside. .

Therefore, after excavating the ground G, the conventional auger 10 rises in the reverse rotation inside the casing 20 and moves the grouting cement 50 into the casing 20 through the grout discharge hole 14a. It is injected and raised to exit the casing 20.

In addition, as shown in FIG. 1D, the reinforcement pile 60 is inserted from the upper portion of the casing 20 in which the grouting cement 50 is filled in a predetermined amount. When the reinforcement pile 60 is inserted in this way, the reinforcement pile The grouting cement 50 is filled between the outer surface of the 60 and the inner surface of the casing 20 so that the grouting cement 50 is applied to the outer surface of the reinforcement pile 60. At this time, the reinforcement pile 60 is inserted into the casing 20 more than the length reaching from the support layer 40 of the ground (G) to the design level 42 of the upper portion.

In addition, after the reinforcement pile 60 is inserted in this manner, as shown in FIG. 1E, the casing 20 is pulled out to the upper side. As such, when the casing 20 is pulled out to the upper side, the grouting cement 50 is filled on the inner surface of the excavation ball 30 and the outer surface of the reinforcement pile 60, and as shown in FIG. 1F, in this state, the reinforcement pile The upper part of the 60 is further driven, and the grouting cement 50 is hardened to complete the ground reinforcement work.

As described above, in the conventional ground reinforcement method 1, since the auger 10 and the casing 20 must be inserted into the ground G during the excavation work of the ground G, the upper auger drive unit 10a and the lower auger There is a need for a large auger drilling apparatus having all of the drive units 20a.

In addition, after constructing the casing 20 in the excavation ball 30, and after inserting the reinforcement pile 60 therein, it is drawn out to remove it, so that the ground reinforcement work process is complicated accordingly, It was to cause problems such as rising.

An object of the present invention is to solve the conventional problems as described above, reinforcing the ground by effectively reinforcing the ground without constructing a casing in the process of excavating the ground during the foundation construction of the building and by reinforcing the pile The present invention provides a ground reinforcement method and an auger used for improving the productivity of the pile driving work and shortening the process of the work.

And another object of the present invention is because only the upper auger drive unit is required to rotate the auger in the auger drilling apparatus used for ground excavation work, it is possible to achieve the miniaturization of the excavation equipment, as well as easy equipment management, saving construction costs The present invention provides an improved ground reinforcement method and an auger used for this.

In order to achieve the above object, the present invention, in the ground reinforcing method to excavate the ground and to reinforce the pile,

Forming an excavation hole in the ground using an auger;

Supplying grouting cement and wall reinforcement into said auger;

Filling the grouting cement into the excavation hole through the auger's lower grout discharge hole while rotating the auger in the inside of the excavation hole, and the wall reinforcement material on the inner wall surface of the excavation hole through the wall reinforcement discharge holes formed on the sides of the auger. Attaching;

When the grouting cement is filled in the excavation hole, stopping supply of the grouting cement and attaching a wall reinforcement material to the inner wall surface of the excavation hole to the upper end of the excavation hole while raising the auger by rotating the auger backward;

Injecting a reinforcement pile into the excavation hole; And

The ground reinforcing method provides a; comprising the step of finishing the ground reinforcement by beating the upper end of the reinforcement pile with a hammer (輕 打).

In addition, the present invention preferably the auger is made of a double tube structure having an inner tube and the outer tube, the inner tube is communicated to the grout discharge hole formed in the lower bit of the auger, the outer tube is coaxial surrounding the inner tube (同 () ), The lower end is connected to the lower bit, a multi-stage wall reinforcement discharge hole is formed in all directions, the grouting cement is supplied to the inner tube is supplied to the inside of the excavation hole, the outer wall surface The reinforcement is supplied to provide a ground reinforcement method configured to spray the wall reinforcement to the inner wall surface of the excavation hole through a multi-stage wall reinforcement discharge hole formed in all directions during the reverse rotation of the auger.

And the present invention preferably the wall reinforcing material includes a bentonite and cement fastener, and is injected into the inner wall surface of the excavation hole by the high pressure air injected into the exterior of the auger, the attachment and quickening of the entire excavation hole Provides a ground reinforcement method for ordering and waterproofing the groundwater flowing into the excavation hole from the outside over the inner wall surface and structurally reinforcing the excavation hole.

In order to achieve the above object, the present invention, in the auger used in the ground reinforcement method to excavate the ground and to reinforce the pile,

A cylindrical pipe-shaped body having a grout flow path and a wall reinforcement flow path formed therein; A bit mounted on the lower end of the body to excavate the ground during rotation; A screw blade mounted on an outer surface of the body in a vertical direction to discharge the soil excavated by the bit to the outside; A grout discharge hole formed in the center of the bit and communicating with a lower end of the grout flow path of the body; And a plurality of wall reinforcement discharge holes formed at a lower side of the body and communicating with the wall reinforcement flow paths of the body and penetrating in multiple directions toward all directions. The grouting cement and the wall reinforcement are supplied to the inside of the body. The auger is configured to reinforce the inner wall surface of the excavation hole by grouting cement through which the grouting cement fills the inside of the excavation hole, and the wall reinforcement is attached and fastened to the inner wall surface of the excavation hole through a plurality of wall reinforcement outlet holes. to provide.

And the present invention is preferably the body is made of a double pipe structure having a coaxial with the inner tube and the outer tube, the inner tube is formed in the grout flow path is in communication with the grout discharge hole formed in the center of the bit, the appearance Silver wall reinforcement flow path is formed to communicate with a plurality of wall reinforcement discharge holes by the grouting cement is supplied to the inner tube to fill the interior of the excavation hole, the wall reinforcement is supplied to the outer wall to the inner wall surface of the excavation hole It provides an auger device configured to spray.

In addition, the present invention preferably the wall reinforcing material supplied to the exterior includes a bentonite and cement fastener, is sprayed to the inner wall surface of the excavation hole by high pressure air, attached and fastened over the entire inner wall surface of the excavation hole Provides an auger device for ordering and waterproofing the groundwater flowing into the excavation hole from the outside, and structurally reinforcing the excavation hole.

According to the present invention, in the process of excavating the ground and reinforcing the ground by using a pile during the foundation construction of the building, drilling the ground using an auger, the excavation hole while filling the grouting cement through the auger made of a double pipe Bentonite and quickeners are injected into the inner wall of the ball with high pressure air to reinforce the inner wall of the excavation hole, and then the reinforcement pile is inserted into the excavation hole to reinforce the ground.

Therefore, according to the present invention, it is possible to effectively reinforce the ground without constructing a casing in the ground excavation hole, which can greatly shorten the process of the ground reinforcement work, and obtain an excellent effect of improving work productivity and shortening the air. Can be.

In addition, according to the present invention, since only the upper auger drive unit is required to rotate the auger in the auger drilling apparatus used for ground excavation work, and the lower auger drive unit for rotating the casing is unnecessary, it is possible to achieve miniaturization of the excavation equipment. In addition, it is easy to manage the equipment on the job site, and thus, an excellent effect improved to achieve a significant reduction in construction cost is obtained.

1A to 1F are explanatory views showing the ground reinforcing method according to the prior art step by step.
Figure 2 is a cross-sectional view showing the auger generally used in the ground reinforcement method according to the prior art.
3A to 3F are explanatory views showing the ground reinforcing method step by step without using a casing when ground excavation according to the present invention.
4 is a cross-sectional view showing an auger device used in the ground reinforcing method according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Ground reinforcement method 100 according to the present invention, as shown in Figures 3a to 3f, the ground (G) to effectively excavate the ground without constructing a casing in the process of excavating the reinforcement pile 160 It is a method to reinforce (G).

In the ground reinforcement method 100 according to the present invention, as shown in FIG. 3A, a step S1 of forming an excavation hole 130 in the ground G using the auger 110 is performed.

As described above, in the step S1 of excavating the ground G, the ground reinforcing method 100 of the present invention requires only the upper auger driving unit 110a to rotate the auger 110 by not using a casing. Compared to this, the auger drilling apparatus can be miniaturized, which makes the equipment easy to manage on the job site.

Thus, the excavation hole 130 formed in the ground (G) is excavated to reach the support layer 140, such as the rock of the ground (G).

In addition, a step (S2) of supplying the grouting cement 150 and the wall surface reinforcement 155 through the auger 110 is performed in the excavated hole 130 excavated in this manner.

In this step (S2), the auger 110 is formed in a double tube structure having an inner tube 112 and an exterior 114 as shown in FIG. 4.

In the auger 110 of such a double pipe structure, the inner pipe 112 forms a grout flow path 112a, and the exterior 114 formed on the outside forms a wall reinforcement flow path 114a.

In addition, the inner tube 112 has a lower end communicating with the grout discharge hole 116a formed in the lower bit 116 of the auger 110, and the outer tube 114 has a coaxial structure surrounding the inner tube 112. The lower end is connected to the lower bit 116 and blocked.

However, the exterior 114 has a structure in which the wall reinforcement discharge holes 118 of the multi-stage are formed in the lower portion adjacent to the bit 116 in all directions. That is, four such wall reinforcement discharge holes 118 are preferably formed in four directions from the bottom of the exterior 114, and are formed in three stages in the vertical direction so as to communicate with the wall surface reinforcement flow passage 114a of the exterior 114. .

Therefore, when the grouting cement 150 is supplied to the grout flow path 112a of the inner tube 112, the grouting cement 150 is supplied into the excavation hole 130 through the grout discharge hole 116a, and the wall reinforcement flow path of the wall 114 of the exterior 114 is provided. When the wall reinforcement 155 is supplied to the wall reinforcement 155 to the inner wall surface of the excavation hole 130 through the multi-stage wall reinforcement discharge hole 118 formed in all directions during the reverse rotation of the auger 110 when the wall reinforcement 155 is supplied to the wall reinforcement 155. To spray.

Next, the grouting cement 150 is excavated through the lower grout discharge hole 116a of the auger 110 by gradually raising the auger 110 in the inside of the excavation hole 130. Filling and attaching the wall reinforcing material 155 to the inner wall surface of the excavation hole 130 through the wall reinforcing material discharge holes 118 formed on the sides of the auger 110 (S3).

In addition, the ground reinforcement method 100 according to the present invention stops the supply of the grouting cement 150 when the grouting cement 150 is filled inside the excavation hole 130 as described above, and continues the auger 110. Step S4 is attached to the inner wall surface of the excavation hole 130 to the upper end of the excavation hole 130 while increasing the reverse rotation (S4).

At this time, the wall reinforcing material 155 injected into the inner wall surface of the excavation hole 130 includes bentonite and cement fastener, by the high pressure air injected into the exterior 114 of the auger 110 It is sprayed onto the inner wall surface of the excavation hole 130 and attached and fastened to function as shotcrete.

Therefore, when the wall reinforcement 155 of the bentonite and the cement fastener is attached and fastened over the entire inner wall surface of the excavation hole 130, the groundwater flowing into the excavation hole 130 from the outside is ordered and waterproofed, and excavated Structural reinforcement of the ball 130 so that the excavation hole 130 is not collapsed by the external force.

In addition, when the ground reinforcement method 100 according to the present invention completes the excavation hole 130 as described above, a step (S5) of incorporating the reinforcement pile 160 into the excavation hole 130 is made.

When the reinforcement pile 160 is inserted into the excavation hole 130 as described above, the grouting cement 150 inserted into the excavation hole 130 is attached to the outer surface of the reinforcement pile 160 and the inner wall surface of the excavation hole 130. Filled by the voids 162 between the wall reinforcing material 155 to completely fill the reinforcement pile 160 in the excavation hole 130.

At this time, for example, assuming that the diameter of the reinforcement pile 160 is 400 mm, the inner diameter of the excavation hole 130 is formed to 465 mm, and the wall reinforcement 155 is attached and fastened inside the excavation hole 130. It is.

When the reinforcement pile 160 is inserted into the excavation hole 130, a void 162 of approximately 32.5 mm is formed between the outer surface of the reinforcement pile 160 and the inner wall surface of the excavation hole 130. As the grouting cement 150 rises upward through the voids 162, the reinforcement pile 160 is enclosed together with the wall reinforcement 155 of the excavation hole 130.

And ground reinforcement method 100 according to the present invention includes a step (S6) to finish the ground reinforcement work by hitting the upper end of the reinforcement pile 160 with a hammer.

Thus, the ground reinforcement method 100 according to the present invention in the process of excavating the ground (G) during the foundation work of the building and reinforcing the ground (G) using the reinforcement pile 160, excavation hole of the ground (G) Unlike the conventional 130, it is possible to effectively reinforce the ground (G) without constructing the casing can significantly shorten the process of the ground (G) reinforcement work, it is possible to improve the work productivity and shorten the air That can achieve excellent effect.

In addition, the ground reinforcement method 100 according to the present invention can achieve the miniaturization of the auger drilling apparatus used for the excavation work of the ground (G), accordingly easy to manage equipment on the work site, construction according to the reduction of equipment cost Cost savings can be made significantly.

Hereinafter, the auger 110 used in the ground reinforcing method 100 of the present invention will be described in more detail with reference to FIG. 4.

Auger 110 according to the present invention has a cylindrical pipe-shaped body 120, the grout passage 112a and the wall reinforcement passage 114a is formed inside the body 120.

The body 120 is made of a double tube structure having an inner tube 112 and the outer tube 114 coaxially, the inner tube 112 forms a grout flow path (112a), the outer tube 114 Forms a wall reinforcement flow path 114a.

And the lower end of the body 120 is equipped with a bit 116 to excavate the ground (G) when rotating, the outer surface of the body 120 is mounted with a screw blade 126 in the vertical direction of the bit Soil excavated by 116 is discharged to the outside.

In addition, the auger 110 according to the present invention is formed in the center of the bit 116, and has a grout discharge hole 116a communicated to the bottom of the grout flow path (112a) of the body 120, the body ( A plurality of wall reinforcement discharge holes 118 communicated with the wall reinforcement passage 114a of the body 120 at a lower side of the body 120 and penetrated in multiple directions toward all directions.

Therefore, the grout flow path 112a of the inner tube 112 communicates with the grout discharge hole 116a formed at the center of the bit 116, and the wall reinforcement flow path 114a of the exterior 114 discharges a plurality of wall reinforcement materials. When the grouting cement 150 is supplied to the inner tube 112 by being connected to the ball 118, the inside of the excavation hole 130 is filled, and when the wall reinforcement 155 is supplied to the exterior 114, the excavation hole 130 is provided. The wall surface reinforcement 155 is to be sprayed to the inner wall surface of the).

The auger 110 according to the present invention configured as described above is mounted on the upper auger drive unit 110a of the auger drilling apparatus (not shown) by rotating the upper end of the body 120 so that the bit 116 is drilled in the ground G. 130 is formed, and the earth and sand excavated by the bit 116 is discharged to the outside of the excavation hole 130 by the screw blade 126.

And after the drilling of the excavation hole 130 is completed, while exiting the auger 110 by rotating the auger 110 through the upper auger drive unit 110a, in this case, the grout flow path formed in the inner tube 112 ( The grouting cement 150 is supplied through 112a to be discharged through the grout discharge hole 116a at the center of the bit 116 to fill the inside of the excavation hole 130.

At the same time, the wall reinforcing material 155 is supplied through the wall reinforcing material passage 114a of the exterior 114 to spray the wall reinforcing material 155 to the inner wall surface of the excavation hole 130 through the wall reinforcing material discharge hole 118. It is to be made.

At this time, the wall reinforcing material 155 includes bentonite and cement fastener, and is sprayed to the inner wall surface of the excavation hole 130 by high pressure air to attach and quicken it to cover the entire inner wall surface of the excavation hole 130. It acts as if it is shotcrete to order and waterproof the groundwater flowing into the excavation hole 130 from the outside, and to strengthen the excavation hole 130 structurally.

As described above, the auger 110 according to the present invention, in the process of excavating the ground (G) during the foundation construction of the building and reinforcing the ground (G) using a pile, existing in the excavation hole 130 of the ground (G) By effectively reinforcing the ground G without constructing a casing, the process of reinforcing the ground G can be greatly shortened, and an excellent effect of improving work productivity and shortening the air can be obtained.

Therefore, the use of the auger 110 according to the present invention can achieve the miniaturization of the excavation equipment, compared to the existing, it is easy to manage equipment at the work site, it is possible to achieve a construction cost reduction by greatly reducing equipment waste.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

1 ....... Concrete Geotechnical Method 10,110 ....... Auger
10a, 110a ..... Upper Auger Drive 12 ...... Body
12a ...... grout euro 14 ........ bits
14a ...... grout vent 16 ...... screw wing
20 ....... Cylindrical casing 20a ..... Lower auger drive
30,130 ...... Digger 40,140 ...... Support layer
42 ...... Design Level 50 ...... Grouting Cement
60,160 ...... Reinforcement file 100 ..... Geotechnical reinforcement method according to the present invention
112 ..... Interior 112a .... Grout Euro
114 ...... Appearance 114a ...... Wall reinforcement flow path
116 ...... bit 116a ..... grout vent
118 ...... Wall reinforcement outlet 120 ...... Body
126 ...... screw wings 150 ..... grouting cement
155 ...... Wall reinforcement 162 ...... Void
G ....... Geotechnical
S1 ...... Step of forming an excavation hole in the ground
S2 ...... Supplying grouting cement and wall reinforcement
S3 ...... Filling grouting cement into the excavation hole and attaching the wall reinforcement to the inner wall surface of the excavation hole.
S4 ...... Attaching the wall reinforcement to the inner wall surface of the excavation hole to the top of the excavation hole
S5 .. Step of incorporating the reinforcement pile inside the excavation hole
S6 ...... Step of finishing the ground reinforcement by beating the top of the reinforcement pile with a hammer

Claims (6)

In the ground reinforcement method of excavating the ground and entering and reinforcing the pile,
Forming an excavation hole in the ground using an auger;
Supplying grouting cement and wall reinforcement into said auger;
Filling the grouting cement into the excavation hole through the auger's lower grout discharge hole while rotating the auger in the inside of the excavation hole, and the wall reinforcement material on the inner wall surface of the excavation hole through the wall reinforcement discharge holes formed on the sides of the auger. Attaching;
When the grouting cement is filled in the excavation hole, stopping supply of the grouting cement and attaching a wall reinforcement material to the inner wall surface of the excavation hole to the upper end of the excavation hole while raising the auger by rotating the auger backward;
Injecting a reinforcement pile into the excavation hole; And
Ground reinforcement method comprising the; step of finishing the ground reinforcement by beating the upper end of the reinforcement pile with a hammer (輕 打). According to claim 1, wherein the auger is made of a double tube structure having an inner tube and the outer tube, the inner tube is communicated to the grout discharge hole formed in the lower bit of the lower auger, the outer tube is coaxial surrounding the inner tube It is made of a structure, the bottom is connected to the lower bit, the wall reinforcement discharge hole of the multi-stage is formed in all directions, the grouting cement is supplied to the inner pipe is supplied into the excavation hole, the wall reinforcement in the appearance And is supplied to spray the wall reinforcement to the inner wall surface of the excavation hole through the multi-stage wall reinforcement discharge hole formed in all directions during the reverse rotation of the auger. According to claim 1 or 2, wherein the wall reinforcing material comprises a bentonite and cement fastener, excavated by being sprayed and attached to the inner wall surface of the excavation hole by the high pressure air injected into the exterior of the auger The ground reinforcement method is characterized in that the groundwater flowing into the inside of the excavation hole from the outside over the entire inner wall surface of the ball, and the waterproofing and structurally reinforce the excavation hole. In the auger used in the ground reinforcement method to excavate the ground and to reinforce the pile,
A cylindrical pipe-shaped body having a grout flow path and a wall reinforcement flow path formed therein;
A bit mounted on the lower end of the body to excavate the ground during rotation;
A screw blade mounted on an outer surface of the body in a vertical direction to discharge the soil excavated by the bit to the outside;
A grout discharge hole formed in the center of the bit and communicating with a lower end of the grout flow path of the body; And
And a plurality of wall reinforcement discharge holes formed on the lower side of the body, communicating with the wall reinforcement flow paths of the body, and formed through the stages in multiple stages, wherein the grouting cement and the wall reinforcement are supplied to the inside of the body to grout. The grouting cement fills the inside of the excavation hole through the discharge hole, and the wall reinforcement is attached and fastened to the inner wall surface of the excavation hole through the plurality of wall reinforcement discharge holes to reinforce the inner wall surface of the excavation hole. Auger device. 5. The body of claim 4, wherein the body has a double tube structure coaxially with the inner tube and the outer tube, and the inner tube communicates with the grout discharge hole formed in the center of the bit by forming a grout flow path. By forming a wall reinforcing material flow path and communicating with a plurality of wall reinforcing material discharge holes, grouting cement is supplied to the inner tube to fill the inside of the excavation hole, and the wall reinforcing material is supplied to the inner pipe to provide the wall reinforcement material to the inner wall of the excavation hole. Auger device, characterized in that configured to spray. 6. The wall reinforcing member according to claim 4 or 5, wherein the wall reinforcement material includes bentonite and cement fastener, and is sprayed onto the inner wall surface of the excavation hole by high pressure air to be attached and fastened so that the outer wall is spread over the entire inner wall surface of the excavation hole. The auger device, characterized in that to order and waterproof the groundwater flowing from the inside of the excavation hole from, and to structurally strengthen the excavation hole.

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