KR20200138484A - Earth drilling device capable of casting concrete and underground structure construction method using the device - Google Patents

Abstract

The present invention relates to a ground drilling device for drilling the ground, which comprises: a driving unit (240); an upper auger pipe (261) for transmitting a driving force provided by the driving unit (240); a lower auger pipe (262) having a screw (263) integrally provided on an outer surface thereof so as to drill the ground; a tip bit (27) provided on a lower portion of the lower auger pipe (262); a casing (28) which has a through hole through which the screw (263) passes, and is inserted into a perforated hole formed by the screw (263) to support an inner wall of the perforated hole; and a swivel joint (10) provided between the upper auger pipe (261) and the lower auger pipe (262) to supply concrete downward through the inside of the lower auger pipe (262).

Description

Ground drilling device capable of casting concrete and underground structure construction method using the device}

The present invention relates to a ground drilling device capable of pouring concrete and a method for constructing an underground concrete structure using the same, and more particularly, a ground drilling device used for construction of foundation piles or slope suppression piles, construction of on-site concrete piles, temporary facility construction, etc. As such, it relates to a ground drilling device capable of drilling and pouring concrete with one equipment, and a method of constructing an underground concrete structure using the same.

When a foundation pile of a structure is installed on the ground, a forced pile is installed on a slope, or a temporary facility ordering wall is formed, a pile or ordering wall is formed by drilling the ground and using the drilled hole.

When installing an order wall or a concrete pile to be cast in place, in general, after drilling the ground by a ground drilling equipment, separate trimming pipes and concrete pipes are installed to construct order walls or cast-in-place concrete piles.

Conventionally, after drilling the ground, the concrete pouring operation was performed by a separate equipment, and thus there were the following problems.

First, since a certain time elapses after the ground drilling, the concrete pouring work is carried out, so groundwater and impurities flow in before the concrete is poured, resulting in the loss of the perforated wall, and there was a problem that the shape of the cast-in-place concrete pile was not uniform. .

Second, when concrete is poured into the perforated hole, the introduced groundwater and water impurities are mixed into the concrete, increasing the uncertainty of the quality of the cast-in-place concrete and reducing the durability of the pile.

Third, because a crane must be used to lift a separate device (trimi tube) for pouring concrete, it was difficult to work at an extension or renovation site with a narrow space, slope construction, intersection construction, etc., and secure a wide work space. For this, additional cost and work time were required.

Patent Document 0001, in a pile coupled to a screw pile to reinforce the ground, a casing 100, a ring-shaped outer circumferential surface with a fixed jaw 210 protruding at regular intervals of the casing 100 In a manner in which the fixing jaw 210 is coupled to the inner surface, the locking member 200 installed in the inner hole of the casing 100, one end penetrates the through hole of the locking member 200 to the inside of the casing 100 A tubular body 300 installed to move in space, installed on the outer circumferential surface of the body 300, and the body 300 moves up and down along the longitudinal direction inside the casing 100, but the locking member 200 It relates to a casing-integrated file consisting of a locking ring 400 that prevents the body 300 from being separated from the casing 100 by being caught, and Patent Document 0001 also did not solve the above problem.

Therefore, it was necessary to develop a ground drilling device capable of both ground drilling and concrete pouring without separate equipment (trimi pipe, pump car) for concrete pouring.

Korean Patent Application Publication No. 10-2017-0092350

The present invention, in order to improve the problems of the prior art as described above, it is an object of the present invention to provide a ground drilling plant capable of both ground drilling and concrete pouring.

The present invention provides a ground stream plant value capable of concrete pouring that can improve the quality of on-site concrete piles and order walls.

An object of the present invention is to provide a ground stream plant value capable of concrete pouring, which can minimize the work space required for drilling and pouring concrete, and reduce construction cost and construction time.

In addition, it is intended to provide a method of constructing an underground concrete structure using a ground stream factory value capable of placing concrete.

In the present invention, in the ground drilling apparatus for drilling the ground, the drive unit 240; An upper auger pipe 261 for transmitting the driving force provided by the driving unit 240; A lower auger pipe 262 integrally provided with a screw 263 on the outer surface to perforate the ground; A tip bit 27 provided under the lower auger tube 2; A casing 28 having a through hole through which the screw 263 passes, and being inserted into a hole formed by the screw 263 to support the inner wall of the hole; Containing a swivel joint 10 provided between the upper auger pipe 261 and the lower auger pipe 262 to supply concrete downward through the inside of the lower auger pipe 262, concrete pouring is possible Provide the ground stream factory value.

The swivel joint 10 includes: a chamber 11 having a space formed therein; An upper connection part 12 provided between the upper part of the chamber 11 and the upper auger pipe 261; It includes a lower connection part 13 provided between the lower part of the chamber 11 and the lower auger pipe 262.

The swivel joint 10 may include an upper stopper 141 provided under the upper auger pipe 261; A lower stopper 142 provided above the lower auger pipe 262; It further includes a porous casing 15 provided between the upper stopper 141 and the lower stopper 142.

A third transfer pipe 233 is connected to the chamber 11 so that the concrete supplied by the concrete pump 22 can be supplied into the chamber 11, and the porous casing 15 has a concrete passing hole. It is characterized in that (151) is formed.

The upper auger pipe 261, the lower auger pipe 262, and the swivel joint 10 are provided with a high-pressure air pipe 25 along the vertical direction.

The upper connection part 12 includes a pair of upper bearings 121 and an upper sealing material 122 provided between the pair of upper bearings 121, and the lower connection part 13 comprises a pair of upper bearings 121 It includes a lower bearing 131 and a lower sealing material 132 provided between the pair of lower bearings 131.

The concrete passage hole 151 is formed in a circular or elliptical shape, and when formed in a circular shape, the diameter is 45 to 80 mm, and when formed in an elliptical shape, the diameter of the short axis (d3) is 45 to 80 mm. do.

The inner diameter (d1) of the lower auger pipe 262 is 140 to 160 mm, and the outer diameter (d2) of the high pressure air pipe 25 is 1/3 to 1/ of the inner diameter (d1) of the lower auger pipe 262 It is characterized in that it is 4.

The main body 100 and the reader 200 are further included, and in the main body 100, a concrete input unit 21, a concrete pump 22, a first transfer pipe 231, and a second transfer pipe 232 are provided. It is equipped.

In addition, in the present invention, in the method for constructing an underground concrete structure using a ground stream factory value capable of pouring concrete, a) forming a drilling hole using the ground stream factory value; b) supplying concrete to the inside of the lower auger pipe 262 through the swivel joint 10; c) drawing the lower auger pipe 262 and the casing 28; d) It provides an underground concrete structure construction method comprising the step of repeating the steps b) and c).

The ground stream plant capable of placing concrete according to the present invention has the following effects.

First, since it does not require separate equipment (trimi pipe, pump car) for concrete pouring after ground drilling, the work space required for drilling and concrete pouring can be minimized, and construction cost and construction time can be reduced. .

Second, since the concrete pouring work can be performed immediately after drilling, it is possible to minimize the loss of empty walls, reduce the inflow of groundwater and impurities into the drilled hole, and as a result improve the quality and durability of concrete piles and order walls, etc. I can make it.

Third, it is possible to work in a narrow work space because it is possible to drill and pour concrete through a single ceiling.

1 is a conventional casing integrated pile.
Figure 2 is a side view of the ground drilling apparatus of the present invention.
3 is an enlarged cross-sectional view A of FIG. 2.
4 is a cross-sectional view of the lower auger pipe of the present invention.
5 is a perspective view of a porous casing of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are assigned to similar parts throughout the specification. Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless otherwise stated. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The ground stream plant capable of pouring concrete of the present invention includes the main body 100, the leader 200, the rail angle adjustment part 300, the fixing part 400, the concrete input part 21, the concrete pump 22, the first Transfer pipe 231, second transfer pipe 232, third transfer pipe 233, drive unit 240, swivel joint 10, upper auger pipe 261, lower auger pipe 262, tip bit ( 27), and a casing 28.

As shown in Fig. 2, the main body 100 is provided with a concrete input unit 21, a concrete pump 22, a first transfer pipe 231, and a second transfer pipe 232, and a casing ( 28) and the leader 200 leading the upper and lower auger pipes are connected to the main body, and the leader 200 is firmly fixed to the ground by the fixing unit 400.

The upper auger pipe 261 and the upper part of the casing 28 used to perforate the ground are connected to the wire 500 to move up and down.

In the supply of concrete, concrete supplied by a ready-mixed concrete truck is introduced into the concrete inlet 21, agitated and transferred by the concrete pump 22, and the first transfer pipe 231, the second transfer pipe (232), the concrete is supplied into the swivel joint 10 through the third transfer pipe 233, and the concrete supplied into the swivel joint 10 is poured into the perforated hole through the inside of the lower auger pipe 262 .

Concrete referred to in the present invention is used in the same sense as the general concept of concrete, and refers to a blend containing cement (binder), water, fine aggregate, and coarse aggregate, and may include admixtures and admixtures as necessary, and coarse aggregate It is used as a different concept from mortar that does not use.

Referring to FIG. 2, a driving part 240 is provided on the upper part of the swivel joint 10, and a lower auger pipe 262 in which a screw 263 is integrally provided on an outer surface of the lower part of the swivel joint 10 is provided. It is connected, and the lower auger pipe 262 is perforated inside the casing 28.

A tip bit 27 is provided under the lower auger pipe 262.

The driving unit 240 includes a hydraulic motor 241 and a reduction gear 242.

FIG. 3 is an enlarged cross-sectional view of A of FIG. 2, and the swivel joint 10 of the present invention will be described in detail with reference to FIG. 3.

The swivel joint 10 is a configuration for supplying concrete to the inside of the lower auger pipe 262 while allowing the rotation of the upper auger pipe 261 and the lower auger pipe 262 for drilling the ground. It is provided between the upper auger pipe 261 and the lower auger pipe 262.

The swivel joint 10 includes a chamber 11, an upper connection part 12, a lower connection part 13, an upper stopper 141, a lower stopper 142, and a porous casing 15.

The chamber 11 has a space formed therein, and the upper stopper 141, the lower stopper 142, and the porous casing 15 are accommodated in the chamber 11, and a third transfer pipe ( 233 is connected to allow the concrete supplied by the concrete pump 22 to be supplied into the chamber 11, and the upper and upper auger pipes 261 of the chamber 11 through the upper connection part 12 ) Is rotatably connected, and the lower part of the chamber 11 and the lower auger pipe 262 are rotatably connected through the lower connection part 13.

The upper connection part 12 includes a pair of upper bearings 121 provided above and below and an upper sealing material 122 provided between the pair of upper bearings 121, and the lower connection part 13 ) Includes a pair of lower bearings 131 provided above and below and a lower sealing material 132 provided between the pair of lower bearings 131.

The swivel joint 10 performs a function of supplying concrete to the inside of the lower auger pipe while enabling the rotation of the upper auger pipe and the lower auger pipe. At this time, the upper sealing material is used to prevent the concrete from flowing out of the swivel joint. (122) and a lower sealing material (132).

The upper sealing material 122 and the lower sealing material 132 may use a Teflon series.

A porous casing 15 is provided inside the swivel joint 10 to supply concrete into the lower auger pipe 262 while connecting the upper auger pipe 261 and the lower auger pipe 262.

A concrete passage hole 151 is formed in the porous casing 15 for smooth passage of concrete, and the shape of the concrete passage hole 151 is preferably formed in a circular or elliptical shape.

Considering the dimensions of the coarse aggregate of concrete, if it is formed in a circular shape for smooth passage of concrete, the diameter can be formed to 45 to 80 mm, and if it is formed in an elliptical shape, the diameter of the short axis (d3) is 45 to 80 mm. It can be formed by

The inside of the porous casing 15 is in communication with the inside of the lower auger pipe 262, so that the concrete passing through the concrete passage hole 151 is supplied downward through the inside of the lower auger pipe 262.

And an upper stopper 141 is provided between the porous casing 15 and the upper auger pipe 261, and a lower stopper 142 is provided between the porous casing 15 and the lower auger pipe 262. It can be provided.

Meanwhile, in order to perforate the ground by the tip bit 27 and the screw 263, high-pressure air must be injected into the perforation hole. To supply high-pressure air, the upper auger pipe 261 and the lower auger pipe 262 And the inside of the swivel joint 10 is provided with a high-pressure air pipe 25 along the vertical direction.

Concrete is supplied through the inside of the lower auger pipe 262. Since the transfer of concrete should not be disturbed by the high-pressure air pipe 25 installed inside the lower auger pipe 262, the inner diameter of the lower auger pipe 262 (d1) may be 140 to 160 mm, and the outer diameter d2 of the high pressure air pipe 25 may be 1/3 to 1/4 of the inner diameter d1 of the lower auger pipe 262 ( See Fig. 4).

Hereinafter, a method of constructing an underground concrete structure using the ground stream factory value capable of placing concrete according to the present invention will be described.

The driving unit 240 supplies rotational force to the lower auger pipe 262, and the high-pressure air pipe 25 injects high-pressure air under the tip bit to form a perforated hole (high-pressure air is a dotted line in FIG. It is supplied in the direction of the arrow).

Immediately after the perforation hole is formed, concrete is injected into the concrete input unit 21 and supplied to the inside of the swivel joint 10 through the third transfer pipe 233 by the concrete pump 22 (Fig. 3 ① Arrow direction), the concrete supplied into the swivel joint 10 is transferred into the porous casing 15 through the concrete passage hole 151 (in the direction of the arrow ② in Fig. 3), and then the lower auger pipe 262 It is poured into the perforated hole through the inside of.

While pouring concrete, the lower auger pipe 262 and the casing 28 are drawn out by wires. After that, concrete structures such as underground barriers and on-site concrete piles are constructed by repeating concrete pouring and drawing.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10. Swivel joint
11. Chamber
12. Upper connection
121. Upper bearing 122. Upper sealing material
13. Bottom connection
131. Lower bearing 132. Lower sealing material
141. Upper stopper 142. Lower stopper
15. Perforated casing 151. Concrete passing hole
21. Concrete input part 22. Concrete pump
231. Transfer Building 1 232. Transfer Building 2
233. 3rd Transfer Pipe
240. Drive
241. Hydraulic motor 242. Reduction gear
25. High pressure air engine
261. Upper auger pipe 262. Lower auger pipe
263. Screw
27. Tip bit 28. Casing
d1. Inner diameter of lower auger pipe
d2. Outer diameter of high pressure air engine
d3. Shortening diameter of concrete passing hole
100. Main body 200. Reader
300. Rail angle adjustment part 400. Fixing part
500. Wire

Claims (10)

In the ground drilling device for drilling the ground,
A driving unit 240;
An upper auger pipe 261 for transmitting the driving force provided by the driving unit 240;
A lower auger pipe 262 integrally provided with a screw 263 on the outer surface to perforate the ground;
A tip bit 27 provided under the lower auger tube 2;
A casing 28 having a through hole through which the screw 263 passes, and being inserted into a hole formed by the screw 263 to support the inner wall of the hole;
Including a swivel joint 10 provided between the upper auger pipe 261 and the lower auger pipe 262 to supply concrete downward through the inside of the lower auger pipe 262,
Ground drilling system capable of pouring concrete. The method of claim 1,
The swivel joint 10,
A chamber 11 in which a space is formed;
An upper connection part 12 provided between the upper part of the chamber 11 and the upper auger pipe 261;
Including a lower connection part 13 provided between the lower part of the chamber 11 and the lower auger pipe 262
Ground drilling system capable of pouring concrete. The method of claim 2,
The swivel joint 10,
An upper stopper 141 provided under the upper auger pipe 261;
A lower stopper 142 provided above the lower auger pipe 262;
Further comprising a porous casing 15 provided between the upper stopper 141 and the lower stopper 142
Ground drilling system capable of pouring concrete. The method of claim 3,
A third transfer pipe 233 is connected to the chamber 11 so that the concrete supplied by the concrete pump 22 can be supplied into the chamber 11,
The porous casing 15, characterized in that the concrete through hole 151 is formed,
Ground drilling system capable of pouring concrete. The method according to any one of claims 2 to 4,
In the upper auger pipe 261, the lower auger pipe 262, and the swivel joint 10, a high-pressure air pipe 25 is provided along the vertical direction.
Ground drilling system capable of pouring concrete. The method according to any one of claims 2 to 4,
The upper connection part 12,
Including a pair of upper bearings 121 and an upper sealing material 122 provided between the pair of upper bearings 121,
The lower connection part 13,
Including a pair of lower bearings 131 and a lower sealing material 132 provided between the pair of lower bearings 131
Ground drilling system capable of pouring concrete. The method of claim 4,
The concrete passage hole 151 is formed in a circular or oval shape,
When formed in a circular shape, the diameter is 45 ~ 80 mm,
When formed in an oval shape, characterized in that the diameter (d3) of the minor axis is 45 ~ 80 mm
Ground drilling system capable of pouring concrete. The method of claim 5,
The inner diameter (d1) of the lower auger pipe 262 is 140 ~ 160 mm,
The outer diameter (d2) of the high pressure air pipe (25) is characterized in that 1/3 ~ 1/4 of the inner diameter (d1) of the lower auger pipe (262)
Ground drilling system capable of pouring concrete. The method according to any one of claims 2 to 4,
The body 100 and the reader 200 further include,
In the main body 100, a concrete input unit 21, a concrete pump 22, a first transfer pipe 231, and a second transfer pipe 232 are provided.
Ground drilling system capable of pouring concrete. In the method for constructing an underground concrete structure using a ground stream factory value capable of placing concrete according to any one of claims 2 to 4,
a) forming a perforated hole using the ground stream factory value;
b) supplying concrete to the inside of the lower auger pipe 262 through the swivel joint 10;
c) drawing the lower auger pipe 262 and the casing 28;
d) including the step of repeating steps b) and c)
Construction method of underground concrete structure.

Images